======================================================== | | | ECOLIGHT Version 5.1.0 (MAIN CODE) | | Copyright (c) 2013 by Curtis D. Mobley | | | | This copy of HE5 is licensed solely to | | U Maine Optics Summer Class 2013 | | | | S/N Maine-500-31Aug2013 | | | | THIS PROGRAM IS EXPERIMENTAL AND IS LICENSED "AS IS" | | WITHOUT REPRESENTATION OF WARRANTY OF ANY KIND, | | EITHER EXPRESS OR IMPLIED. THE ENTIRE RISK AS TO | | THE QUALITY AND PERFORMANCE OF HYDROLIGHT IS WITH | | THE USER. HYDROLIGHT IS NOT FAULT TOLERANT. | | | ======================================================== RUN TITLE: R1 (07/17/2013 17:22) Run started on 07/17/2013 at 17:22:19.6 The AZIMUTHALLY AVERAGED radiance distribution is computed on the following (Theta, Depth, Wavelength) grid: I Theta Mu K zeta z L Lambda (deg) (m) (nm) 1 87.50 0.0436 1 0.000 1 355.00 2 80.00 0.1730 2 1.000 2 365.00 3 70.00 0.3407 3 2.000 3 375.00 4 60.00 0.4981 4 3.000 4 385.00 5 50.00 0.6403 5 4.000 5 395.00 6 40.00 0.7631 6 5.000 6 405.00 7 30.00 0.8627 7 6.000 7 415.00 8 20.00 0.9361 8 7.000 8 425.00 9 10.00 0.9811 9 8.000 9 435.00 10 0.00 0.9981 10 9.000 10 445.00 11 10.000 11 455.00 12 465.00 13 475.00 14 485.00 15 495.00 16 505.00 17 515.00 18 525.00 19 535.00 20 545.00 21 555.00 22 565.00 23 575.00 24 585.00 25 595.00 26 605.00 27 615.00 28 625.00 29 635.00 30 645.00 31 655.00 32 665.00 33 675.00 34 685.00 35 695.00 36 705.00 37 715.00 38 725.00 39 735.00 40 745.00 ***** BEGIN IOP MODEL SPECIFICATIONS ***** The IOP routine "abNewCase1" is being used: Absorption and scattering coefficients for case 1 water (Morel et al. bio-optical models) are used. component 1 is pure water component 2 is small particles component 3 is large particles component 4 is CDOM Pure water a and b values are obtained from the file: ..\data\H2OabDefaults.txt (Linear interpolation is used to define values at all wavelengths) The data file header records from ..\data\H2OabDefaults.txt are: Default "pure water" absorption (a) and scattering (b) coefficients. Based on: 200-300 nm: R.C. Smith and K. Baker, 1981. Appl. Optics 20(2), 177-184. 191 records read The phase function for component 1 comes from a file titled Azimuthally averaged pure water phase function; Ecolight 3.0 standard quads (Oct 2001) The chlorophyll concentration is constant with depth with a value of 2.30 (mg/m^3) The phase function for component 2 comes from a file titled Morel Small Particle Case 1 phase function; (Jul 2004) The chlorophyll values at the requested output depths are: depth Chl (m) (mg/m^3) 0.000 2.300 1.000 2.300 2.000 2.300 3.000 2.300 4.000 2.300 5.000 2.300 6.000 2.300 7.000 2.300 8.000 2.300 9.000 2.300 10.000 2.300 chlorophyll AE filename: ..\data\AE_midUVabs.txt ***** END IOP MODEL SPECIFICATIONS ***** ***** BEGIN INELASTIC SCATTER AND INTERNAL SOURCE SPECIFICATIONS ***** Chlorophyll fluorescence is included in this run Chl fluorescent quantum efficiency set to 0.020 CDOM fluorescence is included in this run Raman scattering is included in this run Raman scattering cross-section set to 2.40E-04 m-1 at reference wavelength 488.0 nm ***** END INELASTIC SCATTER AND INTERNAL SOURCE SPECIFICATIONS ***** ***** BEGIN ATMOSPHERIC MODEL SPECIFICATIONS ***** Normalized sky radiances are computed using sky model "HCNRAD" (Harrison and Coombes Normalized RADiances) The cloud fraction is cloud = 0.0 (0 for a clear sky to 1 for a heavy overcast) The sun is placed in quad Q(r) = Q( 9) centered at theta = 10.000 Diffuse and Direct Sky irradiances are computed using the "RADTRANX" (RADTRAN eXtended for 300-1000 nm) model The RADTRAN clear-sky irradiances are adjusted for cloudiness by the model of Kasten and Czeplak The ozone concentration is computed from climatology using Day of Year = 198 latitude = 60.0000 degrees (N is positive) longitude = -68.0000 degrees (E is positive) Binned Monthly Average TOMS v8 Ozone concentrations (in Dobson units) for use in HE5; Sept 2007 Data from 2000-2004 were averaged to give 5-year climatological averages for 5 x 10 deg latitude x longitude regions. For missing data near the poles, the zonal average of the nearest valid latitude band is used. Parameter values used in the RADTRANX model: Solar zenith angle = 10.0 degrees Pressure = 29.9 in. mercury Day of year = 198 Air mass type = 1.0 Relative Humidity = 80.0 % Precipitable water = 2.5 cm 24-hr wind speed = 5.0 m/sec Current wind speed = 5.0 m/sec Visibility = 15.0 km Total ozone = 338.6 Dobson units Irradiances are computed just above the sea surface Aerosol optical thickness at 550 nm = 0.261 ***** END ATMOSPHERIC MODEL SPECIFICATIONS ***** ***** BEGIN AIR-WATER SURFACE SPECIFICATIONS ***** The air-water surface is for a wind speed of 5.0 m/s Index of refraction is constant for all wavelengths with the value: 1.340 ***** END AIR-WATER SURFACE SPECIFICATIONS ***** ***** BEGIN BOTTOM BOUNDARY SPECIFICATIONS ***** The bottom boundary is an infinitely deep, homogeneous water body below depth 10.00 m The actual depth at which the infinitely deep bottom boundary condition will be applied will be determined dynamically from the IOPs to insure a good solution at the requested output depths ***** END BOTTOM BOUNDARY SPECIFICATIONS ***** Initialization of Hydrolight Completed in 0.2 sec. * * * * * Output for wavelength band 1 (350.0 to 360.0 nm; nominal wavelength = 355.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 33.0 m at 355.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 350.0 nm to 360.0 nm: Ed(diffuse) = 3.099E-01 Ed(direct) = 4.001E-01 Ed(total) = 7.101E-01 Absorption Coefficients of Individual Components at 355.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0176 0.0754 0.0000 0.0580 0.1510 2 0.951 1.000 0.0176 0.0754 0.0000 0.0580 0.1510 3 1.902 2.000 0.0176 0.0754 0.0000 0.0580 0.1510 4 2.853 3.000 0.0176 0.0754 0.0000 0.0580 0.1510 5 3.804 4.000 0.0176 0.0754 0.0000 0.0580 0.1510 6 4.755 5.000 0.0176 0.0754 0.0000 0.0580 0.1510 7 5.706 6.000 0.0176 0.0754 0.0000 0.0580 0.1510 8 6.657 7.000 0.0176 0.0754 0.0000 0.0580 0.1510 9 7.608 8.000 0.0176 0.0754 0.0000 0.0580 0.1510 10 8.559 9.000 0.0176 0.0754 0.0000 0.0580 0.1510 11 9.510 10.000 0.0176 0.0754 0.0000 0.0580 0.1510 Scattering Coefficients of Individual Components at 355.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0127 0.2757 0.5116 0.0000 0.8001 2 0.951 1.000 0.0127 0.2757 0.5116 0.0000 0.8001 3 1.902 2.000 0.0127 0.2757 0.5116 0.0000 0.8001 4 2.853 3.000 0.0127 0.2757 0.5116 0.0000 0.8001 5 3.804 4.000 0.0127 0.2757 0.5116 0.0000 0.8001 6 4.755 5.000 0.0127 0.2757 0.5116 0.0000 0.8001 7 5.706 6.000 0.0127 0.2757 0.5116 0.0000 0.8001 8 6.657 7.000 0.0127 0.2757 0.5116 0.0000 0.8001 9 7.608 8.000 0.0127 0.2757 0.5116 0.0000 0.8001 10 8.559 9.000 0.0127 0.2757 0.5116 0.0000 0.8001 11 9.510 10.000 0.0127 0.2757 0.5116 0.0000 0.8001 Backscattering Coefficients of Individual Components at 355.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00635 0.00387 0.00090 0.00000 0.01112 2 0.951 1.000 0.00635 0.00387 0.00090 0.00000 0.01112 3 1.902 2.000 0.00635 0.00387 0.00090 0.00000 0.01112 4 2.853 3.000 0.00635 0.00387 0.00090 0.00000 0.01112 5 3.804 4.000 0.00635 0.00387 0.00090 0.00000 0.01112 6 4.755 5.000 0.00635 0.00387 0.00090 0.00000 0.01112 7 5.706 6.000 0.00635 0.00387 0.00090 0.00000 0.01112 8 6.657 7.000 0.00635 0.00387 0.00090 0.00000 0.01112 9 7.608 8.000 0.00635 0.00387 0.00090 0.00000 0.01112 10 8.559 9.000 0.00635 0.00387 0.00090 0.00000 0.01112 11 9.510 10.000 0.00635 0.00387 0.00090 0.00000 0.01112 Summary of Inherent Optical Properties at 355.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.1510 0.8001 0.9510 0.8413 0.01112 0.01389 2 0.951 1.000 0.1510 0.8001 0.9510 0.8413 0.01112 0.01389 3 1.902 2.000 0.1510 0.8001 0.9510 0.8413 0.01112 0.01389 4 2.853 3.000 0.1510 0.8001 0.9510 0.8413 0.01112 0.01389 5 3.804 4.000 0.1510 0.8001 0.9510 0.8413 0.01112 0.01389 6 4.755 5.000 0.1510 0.8001 0.9510 0.8413 0.01112 0.01389 7 5.706 6.000 0.1510 0.8001 0.9510 0.8413 0.01112 0.01389 8 6.657 7.000 0.1510 0.8001 0.9510 0.8413 0.01112 0.01389 9 7.608 8.000 0.1510 0.8001 0.9510 0.8413 0.01112 0.01389 10 8.559 9.000 0.1510 0.8001 0.9510 0.8413 0.01112 0.01389 11 9.510 10.000 0.1510 0.8001 0.9510 0.8413 0.01112 0.01389 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.4253E-01 8 20.00 8.0306E-01 7 30.00 6.2101E-01 6 40.00 4.4110E-01 5 50.00 2.9261E-01 4 60.00 1.8506E-01 3 70.00 1.1437E-01 2 80.00 7.1258E-02 1 87.50 5.0287E-02 1 92.50 3.9256E-02 2 100.00 2.9032E-02 3 110.00 2.0891E-02 4 120.00 1.6037E-02 5 130.00 1.3159E-02 6 140.00 1.1442E-02 7 150.00 1.0419E-02 8 160.00 9.8271E-03 9 170.00 9.5194E-03 10 180.00 9.4143E-03 Asymptotic source-free water AOP values are MUu(inf) = 0.3736 MUd(inf) = 0.7292 MU(inf) = 0.6602 R(m,inf) = 0.0342 k(inf) = 0.2287 (1/m) absorp(check) = 0.1510 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 355.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 9.6765E-02 9.8191E-01 1.0787E+00 3.3690E-02 7.1006E-01 0.3482 0.7231 0.6270 4.7446E-02 1 0.00 0.00 4.1935E-02 7.7204E-01 8.1397E-01 1.8435E-02 6.9545E-01 0.4396 0.9008 0.8317 2.6508E-02 2 0.95 1.00 3.7514E-02 6.6371E-01 7.0122E-01 1.5972E-02 5.7871E-01 0.4258 0.8719 0.8025 2.7599E-02 3 1.90 2.00 3.2716E-02 5.6293E-01 5.9565E-01 1.3619E-02 4.7858E-01 0.4163 0.8502 0.7806 2.8457E-02 4 2.85 3.00 2.8046E-02 4.7277E-01 5.0082E-01 1.1485E-02 3.9383E-01 0.4095 0.8330 0.7635 2.9163E-02 5 3.80 4.00 2.3764E-02 3.9413E-01 4.1789E-01 9.6079E-03 3.2276E-01 0.4043 0.8189 0.7494 2.9768E-02 6 4.76 5.00 1.9962E-02 3.2662E-01 3.4658E-01 7.9856E-03 2.6358E-01 0.4000 0.8070 0.7375 3.0297E-02 7 5.71 6.00 1.6650E-02 2.6932E-01 2.8597E-01 6.6016E-03 2.1458E-01 0.3965 0.7967 0.7273 3.0766E-02 8 6.66 7.00 1.3807E-02 2.2111E-01 2.3492E-01 5.4320E-03 1.7420E-01 0.3934 0.7878 0.7184 3.1182E-02 9 7.61 8.00 1.1391E-02 1.8084E-01 1.9223E-01 4.4514E-03 1.4108E-01 0.3908 0.7801 0.7107 3.1553E-02 10 8.56 9.00 9.3552E-03 1.4740E-01 1.5676E-01 3.6345E-03 1.1400E-01 0.3885 0.7734 0.7040 3.1883E-02 11 9.51 10.00 7.6531E-03 1.1979E-01 1.2744E-01 2.9581E-03 9.1937E-02 0.3865 0.7675 0.6982 3.2175E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 355.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.11142 0.15119 0.14910 0.14343 0.18377 0.18489 0.17966 1.000 2.000 1.500 0.13685 0.16469 0.16318 0.15937 0.18997 0.19085 0.18665 2.000 3.000 2.500 0.15401 0.17455 0.17341 0.17038 0.19490 0.19563 0.19209 3.000 4.000 3.500 0.16566 0.18194 0.18102 0.17849 0.19902 0.19964 0.19658 4.000 5.000 4.500 0.17437 0.18788 0.18711 0.18494 0.20257 0.20311 0.20042 5.000 6.000 5.500 0.18138 0.19289 0.19222 0.19034 0.20569 0.20617 0.20378 6.000 7.000 6.500 0.18727 0.19723 0.19665 0.19500 0.20845 0.20888 0.20675 7.000 8.000 7.500 0.19237 0.20105 0.20053 0.19909 0.21091 0.21129 0.20940 8.000 9.000 8.500 0.19687 0.20445 0.20400 0.20274 0.21313 0.21347 0.21180 9.000 10.000 9.500 0.20081 0.20745 0.20706 0.20595 0.21507 0.21537 0.21389 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 355.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 2.524E-02 3.275E-01 3.554E-02 1.335E+00 2.614E-03 3.681E-03 1 0.00 0.00 4.844E-03 2.465E+00 6.966E-03 3.805E+00 2 0.95 1.00 4.048E-03 1.793E+00 6.995E-03 3.946E+00 3 1.90 2.00 3.359E-03 1.290E+00 7.018E-03 4.055E+00 4 2.85 3.00 2.772E-03 9.254E-01 7.037E-03 4.144E+00 5 3.80 4.00 2.277E-03 6.658E-01 7.055E-03 4.220E+00 6 4.76 5.00 1.863E-03 4.817E-01 7.070E-03 4.285E+00 7 5.71 6.00 1.520E-03 3.512E-01 7.083E-03 4.343E+00 8 6.66 7.00 1.236E-03 2.582E-01 7.095E-03 4.395E+00 9 7.61 8.00 1.002E-03 1.915E-01 7.106E-03 4.440E+00 10 8.56 9.00 8.112E-04 1.432E-01 7.116E-03 4.481E+00 11 9.51 10.00 6.550E-04 1.079E-01 7.124E-03 4.516E+00 Waveband 1 of 40 completed in 0.1 sec. * * * * * Output for wavelength band 2 (360.0 to 370.0 nm; nominal wavelength = 365.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 33.0 m at 365.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 360.0 nm to 370.0 nm: Ed(diffuse) = 3.390E-01 Ed(direct) = 4.843E-01 Ed(total) = 8.233E-01 Absorption Coefficients of Individual Components at 365.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0132 0.0686 0.0000 0.0504 0.1322 2 0.931 1.000 0.0132 0.0686 0.0000 0.0504 0.1322 3 1.862 2.000 0.0132 0.0686 0.0000 0.0504 0.1322 4 2.793 3.000 0.0132 0.0686 0.0000 0.0504 0.1322 5 3.723 4.000 0.0132 0.0686 0.0000 0.0504 0.1322 6 4.654 5.000 0.0132 0.0686 0.0000 0.0504 0.1322 7 5.585 6.000 0.0132 0.0686 0.0000 0.0504 0.1322 8 6.516 7.000 0.0132 0.0686 0.0000 0.0504 0.1322 9 7.447 8.000 0.0132 0.0686 0.0000 0.0504 0.1322 10 8.378 9.000 0.0132 0.0686 0.0000 0.0504 0.1322 11 9.309 10.000 0.0132 0.0686 0.0000 0.0504 0.1322 Scattering Coefficients of Individual Components at 365.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0113 0.2757 0.5116 0.0000 0.7986 2 0.931 1.000 0.0113 0.2757 0.5116 0.0000 0.7986 3 1.862 2.000 0.0113 0.2757 0.5116 0.0000 0.7986 4 2.793 3.000 0.0113 0.2757 0.5116 0.0000 0.7986 5 3.723 4.000 0.0113 0.2757 0.5116 0.0000 0.7986 6 4.654 5.000 0.0113 0.2757 0.5116 0.0000 0.7986 7 5.585 6.000 0.0113 0.2757 0.5116 0.0000 0.7986 8 6.516 7.000 0.0113 0.2757 0.5116 0.0000 0.7986 9 7.447 8.000 0.0113 0.2757 0.5116 0.0000 0.7986 10 8.378 9.000 0.0113 0.2757 0.5116 0.0000 0.7986 11 9.309 10.000 0.0113 0.2757 0.5116 0.0000 0.7986 Backscattering Coefficients of Individual Components at 365.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00563 0.00387 0.00090 0.00000 0.01040 2 0.931 1.000 0.00563 0.00387 0.00090 0.00000 0.01040 3 1.862 2.000 0.00563 0.00387 0.00090 0.00000 0.01040 4 2.793 3.000 0.00563 0.00387 0.00090 0.00000 0.01040 5 3.723 4.000 0.00563 0.00387 0.00090 0.00000 0.01040 6 4.654 5.000 0.00563 0.00387 0.00090 0.00000 0.01040 7 5.585 6.000 0.00563 0.00387 0.00090 0.00000 0.01040 8 6.516 7.000 0.00563 0.00387 0.00090 0.00000 0.01040 9 7.447 8.000 0.00563 0.00387 0.00090 0.00000 0.01040 10 8.378 9.000 0.00563 0.00387 0.00090 0.00000 0.01040 11 9.309 10.000 0.00563 0.00387 0.00090 0.00000 0.01040 Summary of Inherent Optical Properties at 365.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.1322 0.7986 0.9309 0.8579 0.01040 0.01302 2 0.931 1.000 0.1322 0.7986 0.9309 0.8579 0.01040 0.01302 3 1.862 2.000 0.1322 0.7986 0.9309 0.8579 0.01040 0.01302 4 2.793 3.000 0.1322 0.7986 0.9309 0.8579 0.01040 0.01302 5 3.723 4.000 0.1322 0.7986 0.9309 0.8579 0.01040 0.01302 6 4.654 5.000 0.1322 0.7986 0.9309 0.8579 0.01040 0.01302 7 5.585 6.000 0.1322 0.7986 0.9309 0.8579 0.01040 0.01302 8 6.516 7.000 0.1322 0.7986 0.9309 0.8579 0.01040 0.01302 9 7.447 8.000 0.1322 0.7986 0.9309 0.8579 0.01040 0.01302 10 8.378 9.000 0.1322 0.7986 0.9309 0.8579 0.01040 0.01302 11 9.309 10.000 0.1322 0.7986 0.9309 0.8579 0.01040 0.01302 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.4643E-01 8 20.00 8.1535E-01 7 30.00 6.4154E-01 6 40.00 4.6592E-01 5 50.00 3.1695E-01 4 60.00 2.0571E-01 3 70.00 1.3022E-01 2 80.00 8.2742E-02 1 87.50 5.8998E-02 1 92.50 4.6241E-02 2 100.00 3.4273E-02 3 110.00 2.4607E-02 4 120.00 1.8752E-02 5 130.00 1.5236E-02 6 140.00 1.3117E-02 7 150.00 1.1844E-02 8 160.00 1.1101E-02 9 170.00 1.0713E-02 10 180.00 1.0580E-02 Asymptotic source-free water AOP values are MUu(inf) = 0.3702 MUd(inf) = 0.7189 MU(inf) = 0.6442 R(m,inf) = 0.0379 k(inf) = 0.2053 (1/m) absorp(check) = 0.1322 = k(inf)*MU(inf) The CDOM absorption at each wavelength is constant with depth with a value of 0.00 (1/m) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 365.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.0942E-01 1.1215E+00 1.2310E+00 3.9130E-02 8.2332E-01 0.3576 0.7341 0.6370 4.7527E-02 1 0.00 0.00 5.2686E-02 8.9651E-01 9.4920E-01 2.3154E-02 8.0812E-01 0.4395 0.9014 0.8270 2.8651E-02 2 0.93 1.00 4.8216E-02 7.8805E-01 8.3627E-01 2.0539E-02 6.8752E-01 0.4260 0.8724 0.7976 2.9874E-02 3 1.86 2.00 4.3136E-02 6.8441E-01 7.2755E-01 1.7955E-02 5.8161E-01 0.4162 0.8498 0.7747 3.0870E-02 4 2.79 3.00 3.7956E-02 5.8885E-01 6.2681E-01 1.5529E-02 4.8975E-01 0.4091 0.8317 0.7566 3.1707E-02 5 3.72 4.00 3.3013E-02 5.0300E-01 5.3601E-01 1.3323E-02 4.1078E-01 0.4036 0.8167 0.7415 3.2432E-02 6 4.65 5.00 2.8461E-02 4.2715E-01 4.5561E-01 1.1356E-02 3.4337E-01 0.3990 0.8039 0.7287 3.3072E-02 7 5.59 6.00 2.4361E-02 3.6093E-01 3.8529E-01 9.6268E-03 2.8616E-01 0.3952 0.7928 0.7177 3.3642E-02 8 6.52 7.00 2.0726E-02 3.0365E-01 3.2438E-01 8.1221E-03 2.3783E-01 0.3919 0.7832 0.7082 3.4151E-02 9 7.45 8.00 1.7541E-02 2.5448E-01 2.7202E-01 6.8239E-03 1.9719E-01 0.3890 0.7749 0.6998 3.4605E-02 10 8.38 9.00 1.4775E-02 2.1254E-01 2.2731E-01 5.7117E-03 1.6314E-01 0.3866 0.7676 0.6926 3.5011E-02 11 9.31 10.00 1.2395E-02 1.7697E-01 1.8936E-01 4.7649E-03 1.3471E-01 0.3844 0.7612 0.6862 3.5372E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 365.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.08867 0.12895 0.12667 0.11982 0.16162 0.16288 0.15672 1.000 2.000 1.500 0.11133 0.14100 0.13927 0.13448 0.16728 0.16831 0.16321 2.000 3.000 2.500 0.12793 0.15039 0.14904 0.14516 0.17191 0.17277 0.16841 3.000 4.000 3.500 0.13953 0.15759 0.15648 0.15322 0.17583 0.17658 0.17277 4.000 5.000 4.500 0.14836 0.16346 0.16252 0.15971 0.17925 0.17991 0.17655 5.000 6.000 5.500 0.15553 0.16845 0.16764 0.16520 0.18228 0.18287 0.17987 6.000 7.000 6.500 0.16160 0.17280 0.17209 0.16996 0.18497 0.18550 0.18284 7.000 8.000 7.500 0.16688 0.17665 0.17602 0.17416 0.18738 0.18785 0.18548 8.000 9.000 8.500 0.17155 0.18011 0.17956 0.17792 0.18958 0.19000 0.18790 9.000 10.000 9.500 0.17566 0.18315 0.18266 0.18123 0.19148 0.19186 0.19000 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 365.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 3.011E-02 3.582E-01 3.657E-02 1.300E+00 3.243E-03 3.939E-03 1 0.00 0.00 6.010E-03 2.920E+00 7.437E-03 3.853E+00 2 0.93 1.00 5.138E-03 2.168E+00 7.473E-03 3.998E+00 3 1.86 2.00 4.364E-03 1.591E+00 7.504E-03 4.114E+00 4 2.79 3.00 3.688E-03 1.165E+00 7.530E-03 4.211E+00 5 3.72 4.00 3.103E-03 8.545E-01 7.553E-03 4.294E+00 6 4.65 5.00 2.601E-03 6.306E-01 7.574E-03 4.367E+00 7 5.59 6.00 2.172E-03 4.689E-01 7.592E-03 4.431E+00 8 6.52 7.00 1.809E-03 3.517E-01 7.608E-03 4.489E+00 9 7.45 8.00 1.503E-03 2.660E-01 7.622E-03 4.540E+00 10 8.38 9.00 1.246E-03 2.029E-01 7.635E-03 4.585E+00 11 9.31 10.00 1.030E-03 1.560E-01 7.646E-03 4.626E+00 Waveband 2 of 40 completed in 0.1 sec. * * * * * Output for wavelength band 3 (370.0 to 380.0 nm; nominal wavelength = 375.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 33.0 m at 375.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 370.0 nm to 380.0 nm: Ed(diffuse) = 3.235E-01 Ed(direct) = 5.029E-01 Ed(total) = 8.264E-01 Absorption Coefficients of Individual Components at 375.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0115 0.0715 0.0000 0.0438 0.1269 2 0.924 1.000 0.0115 0.0715 0.0000 0.0438 0.1269 3 1.848 2.000 0.0115 0.0715 0.0000 0.0438 0.1269 4 2.773 3.000 0.0115 0.0715 0.0000 0.0438 0.1269 5 3.697 4.000 0.0115 0.0715 0.0000 0.0438 0.1269 6 4.621 5.000 0.0115 0.0715 0.0000 0.0438 0.1269 7 5.545 6.000 0.0115 0.0715 0.0000 0.0438 0.1269 8 6.470 7.000 0.0115 0.0715 0.0000 0.0438 0.1269 9 7.394 8.000 0.0115 0.0715 0.0000 0.0438 0.1269 10 8.318 9.000 0.0115 0.0715 0.0000 0.0438 0.1269 11 9.242 10.000 0.0115 0.0715 0.0000 0.0438 0.1269 Scattering Coefficients of Individual Components at 375.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0100 0.2757 0.5116 0.0000 0.7974 2 0.924 1.000 0.0100 0.2757 0.5116 0.0000 0.7974 3 1.848 2.000 0.0100 0.2757 0.5116 0.0000 0.7974 4 2.773 3.000 0.0100 0.2757 0.5116 0.0000 0.7974 5 3.697 4.000 0.0100 0.2757 0.5116 0.0000 0.7974 6 4.621 5.000 0.0100 0.2757 0.5116 0.0000 0.7974 7 5.545 6.000 0.0100 0.2757 0.5116 0.0000 0.7974 8 6.470 7.000 0.0100 0.2757 0.5116 0.0000 0.7974 9 7.394 8.000 0.0100 0.2757 0.5116 0.0000 0.7974 10 8.318 9.000 0.0100 0.2757 0.5116 0.0000 0.7974 11 9.242 10.000 0.0100 0.2757 0.5116 0.0000 0.7974 Backscattering Coefficients of Individual Components at 375.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00501 0.00387 0.00090 0.00000 0.00978 2 0.924 1.000 0.00501 0.00387 0.00090 0.00000 0.00978 3 1.848 2.000 0.00501 0.00387 0.00090 0.00000 0.00978 4 2.773 3.000 0.00501 0.00387 0.00090 0.00000 0.00978 5 3.697 4.000 0.00501 0.00387 0.00090 0.00000 0.00978 6 4.621 5.000 0.00501 0.00387 0.00090 0.00000 0.00978 7 5.545 6.000 0.00501 0.00387 0.00090 0.00000 0.00978 8 6.470 7.000 0.00501 0.00387 0.00090 0.00000 0.00978 9 7.394 8.000 0.00501 0.00387 0.00090 0.00000 0.00978 10 8.318 9.000 0.00501 0.00387 0.00090 0.00000 0.00978 11 9.242 10.000 0.00501 0.00387 0.00090 0.00000 0.00978 Summary of Inherent Optical Properties at 375.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.1269 0.7974 0.9242 0.8627 0.00978 0.01226 2 0.924 1.000 0.1269 0.7974 0.9242 0.8627 0.00978 0.01226 3 1.848 2.000 0.1269 0.7974 0.9242 0.8627 0.00978 0.01226 4 2.773 3.000 0.1269 0.7974 0.9242 0.8627 0.00978 0.01226 5 3.697 4.000 0.1269 0.7974 0.9242 0.8627 0.00978 0.01226 6 4.621 5.000 0.1269 0.7974 0.9242 0.8627 0.00978 0.01226 7 5.545 6.000 0.1269 0.7974 0.9242 0.8627 0.00978 0.01226 8 6.470 7.000 0.1269 0.7974 0.9242 0.8627 0.00978 0.01226 9 7.394 8.000 0.1269 0.7974 0.9242 0.8627 0.00978 0.01226 10 8.318 9.000 0.1269 0.7974 0.9242 0.8627 0.00978 0.01226 11 9.242 10.000 0.1269 0.7974 0.9242 0.8627 0.00978 0.01226 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.4756E-01 8 20.00 8.1895E-01 7 30.00 6.4759E-01 6 40.00 4.7326E-01 5 50.00 3.2417E-01 4 60.00 2.1181E-01 3 70.00 1.3484E-01 2 80.00 8.5985E-02 1 87.50 6.1358E-02 1 92.50 4.8046E-02 2 100.00 3.5519E-02 3 110.00 2.5368E-02 4 120.00 1.9197E-02 5 130.00 1.5480E-02 6 140.00 1.3236E-02 7 150.00 1.1886E-02 8 160.00 1.1097E-02 9 170.00 1.0684E-02 10 180.00 1.0542E-02 Asymptotic source-free water AOP values are MUu(inf) = 0.3670 MUd(inf) = 0.7162 MU(inf) = 0.6411 R(m,inf) = 0.0382 k(inf) = 0.1979 (1/m) absorp(check) = 0.1269 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 375.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.0604E-01 1.1117E+00 1.2178E+00 3.8554E-02 8.2638E-01 0.3636 0.7433 0.6469 4.6654E-02 1 0.00 0.00 5.2422E-02 8.9790E-01 9.5032E-01 2.2985E-02 8.1162E-01 0.4385 0.9039 0.8299 2.8320E-02 2 0.92 1.00 4.8410E-02 7.9495E-01 8.4336E-01 2.0568E-02 6.9548E-01 0.4249 0.8749 0.8003 2.9574E-02 3 1.85 2.00 4.3726E-02 6.9576E-01 7.3948E-01 1.8143E-02 5.9272E-01 0.4149 0.8519 0.7770 3.0609E-02 4 2.77 3.00 3.8847E-02 6.0340E-01 6.4224E-01 1.5833E-02 5.0286E-01 0.4076 0.8334 0.7583 3.1487E-02 5 3.70 4.00 3.4110E-02 5.1959E-01 5.5370E-01 1.3707E-02 4.2498E-01 0.4018 0.8179 0.7428 3.2252E-02 6 4.62 5.00 2.9684E-02 4.4482E-01 4.7450E-01 1.1787E-02 3.5794E-01 0.3971 0.8047 0.7295 3.2931E-02 7 5.55 6.00 2.5643E-02 3.7891E-01 4.0455E-01 1.0080E-02 3.0058E-01 0.3931 0.7933 0.7181 3.3537E-02 8 6.47 7.00 2.2015E-02 3.2135E-01 3.4337E-01 8.5788E-03 2.5173E-01 0.3897 0.7833 0.7081 3.4079E-02 9 7.39 8.00 1.8798E-02 2.7149E-01 2.9029E-01 7.2695E-03 2.1031E-01 0.3867 0.7747 0.6995 3.4565E-02 10 8.32 9.00 1.5974E-02 2.2857E-01 2.4454E-01 6.1365E-03 1.7533E-01 0.3841 0.7671 0.6919 3.4999E-02 11 9.24 10.00 1.3517E-02 1.9184E-01 2.0535E-01 5.1623E-03 1.4589E-01 0.3819 0.7605 0.6853 3.5386E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 375.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.07963 0.12177 0.11940 0.11109 0.15442 0.15572 0.14894 1.000 2.000 1.500 0.10176 0.13328 0.13145 0.12549 0.15989 0.16095 0.15529 2.000 3.000 2.500 0.11832 0.14243 0.14099 0.13614 0.16441 0.16531 0.16044 3.000 4.000 3.500 0.13002 0.14953 0.14834 0.14425 0.16827 0.16906 0.16478 4.000 5.000 4.500 0.13900 0.15537 0.15436 0.15084 0.17166 0.17236 0.16857 5.000 6.000 5.500 0.14632 0.16037 0.15949 0.15643 0.17466 0.17529 0.17192 6.000 7.000 6.500 0.15255 0.16475 0.16397 0.16130 0.17735 0.17791 0.17492 7.000 8.000 7.500 0.15798 0.16863 0.16794 0.16561 0.17976 0.18026 0.17760 8.000 9.000 8.500 0.16276 0.17208 0.17148 0.16944 0.18191 0.18236 0.18000 9.000 10.000 9.500 0.16702 0.17519 0.17466 0.17287 0.18386 0.18427 0.18217 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 375.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 3.068E-02 3.418E-01 3.712E-02 1.257E+00 3.190E-03 3.860E-03 1 0.00 0.00 5.910E-03 2.982E+00 7.282E-03 3.889E+00 2 0.92 1.00 5.092E-03 2.230E+00 7.322E-03 4.039E+00 3 1.85 2.00 4.360E-03 1.647E+00 7.356E-03 4.161E+00 4 2.77 3.00 3.714E-03 1.213E+00 7.385E-03 4.264E+00 5 3.70 4.00 3.149E-03 8.952E-01 7.411E-03 4.352E+00 6 4.62 5.00 2.661E-03 6.645E-01 7.434E-03 4.430E+00 7 5.55 6.00 2.241E-03 4.971E-01 7.454E-03 4.499E+00 8 6.47 7.00 1.881E-03 3.749E-01 7.472E-03 4.561E+00 9 7.39 8.00 1.575E-03 2.853E-01 7.489E-03 4.616E+00 10 8.32 9.00 1.316E-03 2.190E-01 7.503E-03 4.665E+00 11 9.24 10.00 1.096E-03 1.694E-01 7.516E-03 4.708E+00 Waveband 3 of 40 completed in 0.1 sec. * * * * * Output for wavelength band 4 (380.0 to 390.0 nm; nominal wavelength = 385.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 33.0 m at 385.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 380.0 nm to 390.0 nm: Ed(diffuse) = 2.732E-01 Ed(direct) = 4.584E-01 Ed(total) = 7.316E-01 Absorption Coefficients of Individual Components at 385.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0094 0.0752 0.0000 0.0381 0.1227 2 0.919 1.000 0.0094 0.0752 0.0000 0.0381 0.1227 3 1.838 2.000 0.0094 0.0752 0.0000 0.0381 0.1227 4 2.757 3.000 0.0094 0.0752 0.0000 0.0381 0.1227 5 3.676 4.000 0.0094 0.0752 0.0000 0.0381 0.1227 6 4.595 5.000 0.0094 0.0752 0.0000 0.0381 0.1227 7 5.514 6.000 0.0094 0.0752 0.0000 0.0381 0.1227 8 6.433 7.000 0.0094 0.0752 0.0000 0.0381 0.1227 9 7.352 8.000 0.0094 0.0752 0.0000 0.0381 0.1227 10 8.271 9.000 0.0094 0.0752 0.0000 0.0381 0.1227 11 9.190 10.000 0.0094 0.0752 0.0000 0.0381 0.1227 Scattering Coefficients of Individual Components at 385.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0089 0.2757 0.5116 0.0000 0.7963 2 0.919 1.000 0.0089 0.2757 0.5116 0.0000 0.7963 3 1.838 2.000 0.0089 0.2757 0.5116 0.0000 0.7963 4 2.757 3.000 0.0089 0.2757 0.5116 0.0000 0.7963 5 3.676 4.000 0.0089 0.2757 0.5116 0.0000 0.7963 6 4.595 5.000 0.0089 0.2757 0.5116 0.0000 0.7963 7 5.514 6.000 0.0089 0.2757 0.5116 0.0000 0.7963 8 6.433 7.000 0.0089 0.2757 0.5116 0.0000 0.7963 9 7.352 8.000 0.0089 0.2757 0.5116 0.0000 0.7963 10 8.271 9.000 0.0089 0.2757 0.5116 0.0000 0.7963 11 9.190 10.000 0.0089 0.2757 0.5116 0.0000 0.7963 Backscattering Coefficients of Individual Components at 385.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00447 0.00387 0.00090 0.00000 0.00924 2 0.919 1.000 0.00447 0.00387 0.00090 0.00000 0.00924 3 1.838 2.000 0.00447 0.00387 0.00090 0.00000 0.00924 4 2.757 3.000 0.00447 0.00387 0.00090 0.00000 0.00924 5 3.676 4.000 0.00447 0.00387 0.00090 0.00000 0.00924 6 4.595 5.000 0.00447 0.00387 0.00090 0.00000 0.00924 7 5.514 6.000 0.00447 0.00387 0.00090 0.00000 0.00924 8 6.433 7.000 0.00447 0.00387 0.00090 0.00000 0.00924 9 7.352 8.000 0.00447 0.00387 0.00090 0.00000 0.00924 10 8.271 9.000 0.00447 0.00387 0.00090 0.00000 0.00924 11 9.190 10.000 0.00447 0.00387 0.00090 0.00000 0.00924 Summary of Inherent Optical Properties at 385.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.1227 0.7963 0.9190 0.8665 0.00924 0.01160 2 0.919 1.000 0.1227 0.7963 0.9190 0.8665 0.00924 0.01160 3 1.838 2.000 0.1227 0.7963 0.9190 0.8665 0.00924 0.01160 4 2.757 3.000 0.1227 0.7963 0.9190 0.8665 0.00924 0.01160 5 3.676 4.000 0.1227 0.7963 0.9190 0.8665 0.00924 0.01160 6 4.595 5.000 0.1227 0.7963 0.9190 0.8665 0.00924 0.01160 7 5.514 6.000 0.1227 0.7963 0.9190 0.8665 0.00924 0.01160 8 6.433 7.000 0.1227 0.7963 0.9190 0.8665 0.00924 0.01160 9 7.352 8.000 0.1227 0.7963 0.9190 0.8665 0.00924 0.01160 10 8.271 9.000 0.1227 0.7963 0.9190 0.8665 0.00924 0.01160 11 9.190 10.000 0.1227 0.7963 0.9190 0.8665 0.00924 0.01160 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.4845E-01 8 20.00 8.2178E-01 7 30.00 6.5235E-01 6 40.00 4.7908E-01 5 50.00 3.2992E-01 4 60.00 2.1668E-01 3 70.00 1.3854E-01 2 80.00 8.8575E-02 1 87.50 6.3231E-02 1 92.50 4.9463E-02 2 100.00 3.6478E-02 3 110.00 2.5926E-02 4 120.00 1.9494E-02 5 130.00 1.5612E-02 6 140.00 1.3264E-02 7 150.00 1.1850E-02 8 160.00 1.1023E-02 9 170.00 1.0590E-02 10 180.00 1.0442E-02 Asymptotic source-free water AOP values are MUu(inf) = 0.3641 MUd(inf) = 0.7141 MU(inf) = 0.6390 R(m,inf) = 0.0382 k(inf) = 0.1920 (1/m) absorp(check) = 0.1227 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 385.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 9.0843E-02 9.7327E-01 1.0641E+00 3.3524E-02 7.3160E-01 0.3690 0.7517 0.6560 4.5823E-02 1 0.00 0.00 4.5853E-02 7.9323E-01 8.3908E-01 2.0058E-02 7.1886E-01 0.4374 0.9062 0.8328 2.7903E-02 2 0.92 1.00 4.2658E-02 7.0626E-01 7.4892E-01 1.8078E-02 6.1950E-01 0.4238 0.8772 0.8031 2.9181E-02 3 1.84 2.00 3.8833E-02 6.2191E-01 6.6074E-01 1.6063E-02 5.3105E-01 0.4136 0.8539 0.7794 3.0247E-02 4 2.76 3.00 3.4771E-02 5.4276E-01 5.7753E-01 1.4121E-02 4.5322E-01 0.4061 0.8350 0.7603 3.1158E-02 5 3.68 4.00 3.0769E-02 4.7036E-01 5.0113E-01 1.2313E-02 3.8532E-01 0.4002 0.8192 0.7443 3.1956E-02 6 4.60 5.00 2.6981E-02 4.0526E-01 4.3224E-01 1.0666E-02 3.2650E-01 0.3953 0.8056 0.7307 3.2667E-02 7 5.51 6.00 2.3483E-02 3.4743E-01 3.7092E-01 9.1858E-03 2.7582E-01 0.3912 0.7939 0.7189 3.3303E-02 8 6.43 7.00 2.0308E-02 2.9655E-01 3.1686E-01 7.8721E-03 2.3239E-01 0.3876 0.7837 0.7086 3.3874E-02 9 7.35 8.00 1.7466E-02 2.5213E-01 2.6960E-01 6.7167E-03 1.9533E-01 0.3846 0.7747 0.6996 3.4386E-02 10 8.27 9.00 1.4947E-02 2.1362E-01 2.2857E-01 5.7083E-03 1.6382E-01 0.3819 0.7669 0.6918 3.4844E-02 11 9.19 10.00 1.2736E-02 1.8043E-01 1.9316E-01 4.8344E-03 1.3713E-01 0.3796 0.7601 0.6849 3.5253E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 385.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.07223 0.11613 0.11368 0.10397 0.14875 0.15007 0.14271 1.000 2.000 1.500 0.09394 0.12719 0.12527 0.11817 0.15405 0.15515 0.14895 2.000 3.000 2.500 0.11049 0.13614 0.13461 0.12882 0.15849 0.15943 0.15406 3.000 4.000 3.500 0.12228 0.14315 0.14189 0.13699 0.16230 0.16313 0.15841 4.000 5.000 4.500 0.13139 0.14897 0.14788 0.14367 0.16566 0.16639 0.16221 5.000 6.000 5.500 0.13886 0.15396 0.15301 0.14936 0.16865 0.16931 0.16558 6.000 7.000 6.500 0.14523 0.15836 0.15752 0.15433 0.17133 0.17192 0.16861 7.000 8.000 7.500 0.15080 0.16226 0.16153 0.15874 0.17374 0.17427 0.17133 8.000 9.000 8.500 0.15571 0.16575 0.16510 0.16266 0.17590 0.17637 0.17376 9.000 10.000 9.500 0.16007 0.16887 0.16830 0.16617 0.17783 0.17825 0.17595 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 385.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 2.750E-02 2.887E-01 3.759E-02 1.219E+00 2.759E-03 3.771E-03 1 0.00 0.00 5.111E-03 2.680E+00 7.110E-03 3.924E+00 2 0.92 1.00 4.432E-03 2.015E+00 7.153E-03 4.079E+00 3 1.84 2.00 3.818E-03 1.496E+00 7.190E-03 4.207E+00 4 2.76 3.00 3.273E-03 1.107E+00 7.222E-03 4.314E+00 5 3.68 4.00 2.794E-03 8.208E-01 7.250E-03 4.408E+00 6 4.60 5.00 2.375E-03 6.121E-01 7.275E-03 4.490E+00 7 5.51 6.00 2.013E-03 4.600E-01 7.297E-03 4.564E+00 8 6.43 7.00 1.701E-03 3.486E-01 7.317E-03 4.629E+00 9 7.35 8.00 1.433E-03 2.664E-01 7.335E-03 4.688E+00 10 8.27 9.00 1.204E-03 2.054E-01 7.351E-03 4.740E+00 11 9.19 10.00 1.010E-03 1.597E-01 7.365E-03 4.787E+00 Waveband 4 of 40 completed in 0.1 sec. * * * * * Output for wavelength band 5 (390.0 to 400.0 nm; nominal wavelength = 395.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 33.0 m at 395.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 390.0 nm to 400.0 nm: Ed(diffuse) = 3.241E-01 Ed(direct) = 5.827E-01 Ed(total) = 9.068E-01 Absorption Coefficients of Individual Components at 395.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0081 0.0765 0.0000 0.0331 0.1177 2 0.913 1.000 0.0081 0.0765 0.0000 0.0331 0.1177 3 1.826 2.000 0.0081 0.0765 0.0000 0.0331 0.1177 4 2.739 3.000 0.0081 0.0765 0.0000 0.0331 0.1177 5 3.652 4.000 0.0081 0.0765 0.0000 0.0331 0.1177 6 4.566 5.000 0.0081 0.0765 0.0000 0.0331 0.1177 7 5.479 6.000 0.0081 0.0765 0.0000 0.0331 0.1177 8 6.392 7.000 0.0081 0.0765 0.0000 0.0331 0.1177 9 7.305 8.000 0.0081 0.0765 0.0000 0.0331 0.1177 10 8.218 9.000 0.0081 0.0765 0.0000 0.0331 0.1177 11 9.131 10.000 0.0081 0.0765 0.0000 0.0331 0.1177 Scattering Coefficients of Individual Components at 395.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0080 0.2757 0.5116 0.0000 0.7954 2 0.913 1.000 0.0080 0.2757 0.5116 0.0000 0.7954 3 1.826 2.000 0.0080 0.2757 0.5116 0.0000 0.7954 4 2.739 3.000 0.0080 0.2757 0.5116 0.0000 0.7954 5 3.652 4.000 0.0080 0.2757 0.5116 0.0000 0.7954 6 4.566 5.000 0.0080 0.2757 0.5116 0.0000 0.7954 7 5.479 6.000 0.0080 0.2757 0.5116 0.0000 0.7954 8 6.392 7.000 0.0080 0.2757 0.5116 0.0000 0.7954 9 7.305 8.000 0.0080 0.2757 0.5116 0.0000 0.7954 10 8.218 9.000 0.0080 0.2757 0.5116 0.0000 0.7954 11 9.131 10.000 0.0080 0.2757 0.5116 0.0000 0.7954 Backscattering Coefficients of Individual Components at 395.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00400 0.00387 0.00090 0.00000 0.00877 2 0.913 1.000 0.00400 0.00387 0.00090 0.00000 0.00877 3 1.826 2.000 0.00400 0.00387 0.00090 0.00000 0.00877 4 2.739 3.000 0.00400 0.00387 0.00090 0.00000 0.00877 5 3.652 4.000 0.00400 0.00387 0.00090 0.00000 0.00877 6 4.566 5.000 0.00400 0.00387 0.00090 0.00000 0.00877 7 5.479 6.000 0.00400 0.00387 0.00090 0.00000 0.00877 8 6.392 7.000 0.00400 0.00387 0.00090 0.00000 0.00877 9 7.305 8.000 0.00400 0.00387 0.00090 0.00000 0.00877 10 8.218 9.000 0.00400 0.00387 0.00090 0.00000 0.00877 11 9.131 10.000 0.00400 0.00387 0.00090 0.00000 0.00877 Summary of Inherent Optical Properties at 395.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.1177 0.7954 0.9131 0.8711 0.00877 0.01103 2 0.913 1.000 0.1177 0.7954 0.9131 0.8711 0.00877 0.01103 3 1.826 2.000 0.1177 0.7954 0.9131 0.8711 0.00877 0.01103 4 2.739 3.000 0.1177 0.7954 0.9131 0.8711 0.00877 0.01103 5 3.652 4.000 0.1177 0.7954 0.9131 0.8711 0.00877 0.01103 6 4.566 5.000 0.1177 0.7954 0.9131 0.8711 0.00877 0.01103 7 5.479 6.000 0.1177 0.7954 0.9131 0.8711 0.00877 0.01103 8 6.392 7.000 0.1177 0.7954 0.9131 0.8711 0.00877 0.01103 9 7.305 8.000 0.1177 0.7954 0.9131 0.8711 0.00877 0.01103 10 8.218 9.000 0.1177 0.7954 0.9131 0.8711 0.00877 0.01103 11 9.131 10.000 0.1177 0.7954 0.9131 0.8711 0.00877 0.01103 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.4955E-01 8 20.00 8.2527E-01 7 30.00 6.5829E-01 6 40.00 4.8641E-01 5 50.00 3.3728E-01 4 60.00 2.2305E-01 3 70.00 1.4349E-01 2 80.00 9.2161E-02 1 87.50 6.5911E-02 1 92.50 5.1561E-02 2 100.00 3.7980E-02 3 110.00 2.6899E-02 4 120.00 2.0114E-02 5 130.00 1.6006E-02 6 140.00 1.3516E-02 7 150.00 1.2012E-02 8 160.00 1.1131E-02 9 170.00 1.0670E-02 10 180.00 1.0512E-02 Asymptotic source-free water AOP values are MUu(inf) = 0.3616 MUd(inf) = 0.7112 MU(inf) = 0.6353 R(m,inf) = 0.0387 k(inf) = 0.1853 (1/m) absorp(check) = 0.1177 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 395.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.0968E-01 1.1942E+00 1.3039E+00 4.1112E-02 9.0676E-01 0.3748 0.7593 0.6639 4.5339E-02 1 0.00 0.00 5.7352E-02 9.8219E-01 1.0395E+00 2.5055E-02 8.9162E-01 0.4369 0.9078 0.8336 2.8100E-02 2 0.91 1.00 5.3733E-02 8.8015E-01 9.3388E-01 2.2743E-02 7.7337E-01 0.4233 0.8787 0.8038 2.9407E-02 3 1.83 2.00 4.9303E-02 7.8043E-01 8.2973E-01 2.0361E-02 6.6738E-01 0.4130 0.8551 0.7798 3.0509E-02 4 2.74 3.00 4.4504E-02 6.8598E-01 7.3049E-01 1.8038E-02 5.7342E-01 0.4053 0.8359 0.7603 3.1457E-02 5 3.65 4.00 3.9702E-02 5.9881E-01 6.3851E-01 1.5850E-02 4.9084E-01 0.3992 0.8197 0.7439 3.2290E-02 6 4.57 5.00 3.5094E-02 5.1970E-01 5.5479E-01 1.3834E-02 4.1877E-01 0.3942 0.8058 0.7299 3.3034E-02 7 5.48 6.00 3.0788E-02 4.4880E-01 4.7959E-01 1.2005E-02 3.5622E-01 0.3899 0.7937 0.7177 3.3701E-02 8 6.39 7.00 2.6836E-02 3.8586E-01 4.1270E-01 1.0366E-02 3.0220E-01 0.3863 0.7832 0.7071 3.4301E-02 9 7.30 8.00 2.3260E-02 3.3046E-01 3.5372E-01 8.9103E-03 2.5576E-01 0.3831 0.7740 0.6979 3.4838E-02 10 8.22 9.00 2.0059E-02 2.8201E-01 3.0207E-01 7.6288E-03 2.1599E-01 0.3803 0.7659 0.6898 3.5319E-02 11 9.13 10.00 1.7222E-02 2.3991E-01 2.5713E-01 6.5083E-03 1.8206E-01 0.3779 0.7589 0.6827 3.5749E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 395.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.06517 0.10970 0.10719 0.09681 0.14228 0.14363 0.13613 1.000 2.000 1.500 0.08605 0.12025 0.11825 0.11063 0.14741 0.14854 0.14222 2.000 3.000 2.500 0.10240 0.12899 0.12739 0.12116 0.15174 0.15272 0.14725 3.000 4.000 3.500 0.11419 0.13591 0.13458 0.12933 0.15549 0.15635 0.15157 4.000 5.000 4.500 0.12335 0.14169 0.14054 0.13604 0.15881 0.15958 0.15535 5.000 6.000 5.500 0.13091 0.14668 0.14567 0.14178 0.16178 0.16247 0.15873 6.000 7.000 6.500 0.13738 0.15108 0.15020 0.14682 0.16444 0.16506 0.16176 7.000 8.000 7.500 0.14304 0.15501 0.15423 0.15129 0.16684 0.16740 0.16449 8.000 9.000 8.500 0.14805 0.15853 0.15784 0.15528 0.16900 0.16950 0.16694 9.000 10.000 9.500 0.15251 0.16168 0.16107 0.15885 0.17093 0.17138 0.16913 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 395.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 3.454E-02 3.425E-01 3.809E-02 1.190E+00 3.419E-03 3.770E-03 1 0.00 0.00 6.334E-03 3.365E+00 7.104E-03 3.956E+00 2 0.91 1.00 5.528E-03 2.546E+00 7.148E-03 4.114E+00 3 1.83 2.00 4.795E-03 1.901E+00 7.185E-03 4.246E+00 4 2.74 3.00 4.138E-03 1.415E+00 7.217E-03 4.359E+00 5 3.65 4.00 3.556E-03 1.055E+00 7.245E-03 4.457E+00 6 4.57 5.00 3.045E-03 7.910E-01 7.270E-03 4.544E+00 7 5.48 6.00 2.598E-03 5.976E-01 7.293E-03 4.621E+00 8 6.39 7.00 2.210E-03 4.553E-01 7.312E-03 4.691E+00 9 7.30 8.00 1.875E-03 3.499E-01 7.330E-03 4.753E+00 10 8.22 9.00 1.586E-03 2.713E-01 7.345E-03 4.809E+00 11 9.13 10.00 1.340E-03 2.120E-01 7.358E-03 4.859E+00 Waveband 5 of 40 completed in 0.1 sec. * * * * * Output for wavelength band 6 (400.0 to 410.0 nm; nominal wavelength = 405.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 33.0 m at 405.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 400.0 nm to 410.0 nm: Ed(diffuse) = 4.403E-01 Ed(direct) = 8.392E-01 Ed(total) = 1.279E+00 Absorption Coefficients of Individual Components at 405.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0053 0.0798 0.0000 0.0288 0.1139 2 0.908 1.000 0.0053 0.0798 0.0000 0.0288 0.1139 3 1.817 2.000 0.0053 0.0798 0.0000 0.0288 0.1139 4 2.725 3.000 0.0053 0.0798 0.0000 0.0288 0.1139 5 3.634 4.000 0.0053 0.0798 0.0000 0.0288 0.1139 6 4.542 5.000 0.0053 0.0798 0.0000 0.0288 0.1139 7 5.451 6.000 0.0053 0.0798 0.0000 0.0288 0.1139 8 6.359 7.000 0.0053 0.0798 0.0000 0.0288 0.1139 9 7.268 8.000 0.0053 0.0798 0.0000 0.0288 0.1139 10 8.176 9.000 0.0053 0.0798 0.0000 0.0288 0.1139 11 9.084 10.000 0.0053 0.0798 0.0000 0.0288 0.1139 Scattering Coefficients of Individual Components at 405.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0072 0.2757 0.5116 0.0000 0.7946 2 0.908 1.000 0.0072 0.2757 0.5116 0.0000 0.7946 3 1.817 2.000 0.0072 0.2757 0.5116 0.0000 0.7946 4 2.725 3.000 0.0072 0.2757 0.5116 0.0000 0.7946 5 3.634 4.000 0.0072 0.2757 0.5116 0.0000 0.7946 6 4.542 5.000 0.0072 0.2757 0.5116 0.0000 0.7946 7 5.451 6.000 0.0072 0.2757 0.5116 0.0000 0.7946 8 6.359 7.000 0.0072 0.2757 0.5116 0.0000 0.7946 9 7.268 8.000 0.0072 0.2757 0.5116 0.0000 0.7946 10 8.176 9.000 0.0072 0.2757 0.5116 0.0000 0.7946 11 9.084 10.000 0.0072 0.2757 0.5116 0.0000 0.7946 Backscattering Coefficients of Individual Components at 405.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00359 0.00387 0.00090 0.00000 0.00836 2 0.908 1.000 0.00359 0.00387 0.00090 0.00000 0.00836 3 1.817 2.000 0.00359 0.00387 0.00090 0.00000 0.00836 4 2.725 3.000 0.00359 0.00387 0.00090 0.00000 0.00836 5 3.634 4.000 0.00359 0.00387 0.00090 0.00000 0.00836 6 4.542 5.000 0.00359 0.00387 0.00090 0.00000 0.00836 7 5.451 6.000 0.00359 0.00387 0.00090 0.00000 0.00836 8 6.359 7.000 0.00359 0.00387 0.00090 0.00000 0.00836 9 7.268 8.000 0.00359 0.00387 0.00090 0.00000 0.00836 10 8.176 9.000 0.00359 0.00387 0.00090 0.00000 0.00836 11 9.084 10.000 0.00359 0.00387 0.00090 0.00000 0.00836 Summary of Inherent Optical Properties at 405.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.1139 0.7946 0.9084 0.8746 0.00836 0.01052 2 0.908 1.000 0.1139 0.7946 0.9084 0.8746 0.00836 0.01052 3 1.817 2.000 0.1139 0.7946 0.9084 0.8746 0.00836 0.01052 4 2.725 3.000 0.1139 0.7946 0.9084 0.8746 0.00836 0.01052 5 3.634 4.000 0.1139 0.7946 0.9084 0.8746 0.00836 0.01052 6 4.542 5.000 0.1139 0.7946 0.9084 0.8746 0.00836 0.01052 7 5.451 6.000 0.1139 0.7946 0.9084 0.8746 0.00836 0.01052 8 6.359 7.000 0.1139 0.7946 0.9084 0.8746 0.00836 0.01052 9 7.268 8.000 0.1139 0.7946 0.9084 0.8746 0.00836 0.01052 10 8.176 9.000 0.1139 0.7946 0.9084 0.8746 0.00836 0.01052 11 9.084 10.000 0.1139 0.7946 0.9084 0.8746 0.00836 0.01052 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.5040E-01 8 20.00 8.2801E-01 7 30.00 6.6297E-01 6 40.00 4.9223E-01 5 50.00 3.4315E-01 4 60.00 2.2816E-01 3 70.00 1.4747E-01 2 80.00 9.5044E-02 1 87.50 6.8058E-02 1 92.50 5.3233E-02 2 100.00 3.9162E-02 3 110.00 2.7646E-02 4 120.00 2.0570E-02 5 130.00 1.6274E-02 6 140.00 1.3665E-02 7 150.00 1.2087E-02 8 160.00 1.1162E-02 9 170.00 1.0676E-02 10 180.00 1.0510E-02 Asymptotic source-free water AOP values are MUu(inf) = 0.3593 MUd(inf) = 0.7090 MU(inf) = 0.6326 R(m,inf) = 0.0391 k(inf) = 0.1800 (1/m) absorp(check) = 0.1139 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 405.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.5130E-01 1.6709E+00 1.8222E+00 5.7463E-02 1.2795E+00 0.3798 0.7657 0.6706 4.4912E-02 1 0.00 0.00 8.1396E-02 1.3847E+00 1.4661E+00 3.5512E-02 1.2588E+00 0.4363 0.9091 0.8344 2.8210E-02 2 0.91 1.00 7.6684E-02 1.2471E+00 1.3238E+00 3.2416E-02 1.0975E+00 0.4227 0.8800 0.8045 2.9537E-02 3 1.82 2.00 7.0798E-02 1.1119E+00 1.1827E+00 2.9192E-02 9.5201E-01 0.4123 0.8562 0.7803 3.0664E-02 4 2.73 3.00 6.4314E-02 9.8283E-01 1.0471E+00 2.6017E-02 8.2234E-01 0.4045 0.8367 0.7605 3.1637E-02 5 3.63 4.00 5.7741E-02 8.6284E-01 9.2058E-01 2.2998E-02 7.0770E-01 0.3983 0.8202 0.7438 3.2497E-02 6 4.54 5.00 5.1365E-02 7.5316E-01 8.0452E-01 2.0193E-02 6.0705E-01 0.3931 0.8060 0.7294 3.3265E-02 7 5.45 6.00 4.5346E-02 6.5415E-01 6.9950E-01 1.7628E-02 5.1918E-01 0.3888 0.7937 0.7170 3.3955E-02 8 6.36 7.00 3.9771E-02 5.6566E-01 6.0543E-01 1.5311E-02 4.4285E-01 0.3850 0.7829 0.7062 3.4575E-02 9 7.27 8.00 3.4681E-02 4.8722E-01 5.2190E-01 1.3239E-02 3.7684E-01 0.3817 0.7735 0.6967 3.5131E-02 10 8.18 9.00 3.0090E-02 4.1817E-01 4.4826E-01 1.1400E-02 3.1998E-01 0.3789 0.7652 0.6884 3.5629E-02 11 9.08 10.00 2.5988E-02 3.5776E-01 3.8374E-01 9.7817E-03 2.7116E-01 0.3764 0.7580 0.6811 3.6073E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 405.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.05964 0.10465 0.10209 0.09123 0.13719 0.13856 0.13107 1.000 2.000 1.500 0.07986 0.11480 0.11274 0.10473 0.14218 0.14334 0.13704 2.000 3.000 2.500 0.09604 0.12336 0.12171 0.11517 0.14643 0.14743 0.14201 3.000 4.000 3.500 0.10781 0.13021 0.12882 0.12332 0.15013 0.15102 0.14629 4.000 5.000 4.500 0.11702 0.13595 0.13475 0.13006 0.15341 0.15421 0.15006 5.000 6.000 5.500 0.12464 0.14093 0.13989 0.13584 0.15636 0.15708 0.15343 6.000 7.000 6.500 0.13119 0.14535 0.14442 0.14092 0.15902 0.15966 0.15646 7.000 8.000 7.500 0.13693 0.14929 0.14847 0.14545 0.16141 0.16199 0.15919 8.000 9.000 8.500 0.14202 0.15283 0.15211 0.14949 0.16357 0.16408 0.16164 9.000 10.000 9.500 0.14656 0.15602 0.15539 0.15313 0.16552 0.16598 0.16387 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 405.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 4.925E-02 4.653E-01 3.849E-02 1.167E+00 4.810E-03 3.760E-03 1 0.00 0.00 8.911E-03 4.800E+00 7.079E-03 3.985E+00 2 0.91 1.00 7.817E-03 3.649E+00 7.123E-03 4.147E+00 3 1.82 2.00 6.816E-03 2.737E+00 7.159E-03 4.283E+00 4 2.73 3.00 5.913E-03 2.046E+00 7.191E-03 4.400E+00 5 3.63 4.00 5.109E-03 1.532E+00 7.219E-03 4.502E+00 6 4.54 5.00 4.397E-03 1.154E+00 7.243E-03 4.593E+00 7 5.45 6.00 3.771E-03 8.754E-01 7.264E-03 4.674E+00 8 6.36 7.00 3.225E-03 6.698E-01 7.283E-03 4.747E+00 9 7.27 8.00 2.751E-03 5.170E-01 7.299E-03 4.813E+00 10 8.18 9.00 2.340E-03 4.026E-01 7.313E-03 4.872E+00 11 9.08 10.00 1.986E-03 3.160E-01 7.325E-03 4.925E+00 Waveband 6 of 40 completed in 0.1 sec. * * * * * Output for wavelength band 7 (410.0 to 420.0 nm; nominal wavelength = 415.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 33.0 m at 415.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 410.0 nm to 420.0 nm: Ed(diffuse) = 4.504E-01 Ed(direct) = 9.065E-01 Ed(total) = 1.357E+00 Absorption Coefficients of Individual Components at 415.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0044 0.0851 0.0000 0.0250 0.1146 2 0.908 1.000 0.0044 0.0851 0.0000 0.0250 0.1146 3 1.817 2.000 0.0044 0.0851 0.0000 0.0250 0.1146 4 2.725 3.000 0.0044 0.0851 0.0000 0.0250 0.1146 5 3.634 4.000 0.0044 0.0851 0.0000 0.0250 0.1146 6 4.542 5.000 0.0044 0.0851 0.0000 0.0250 0.1146 7 5.450 6.000 0.0044 0.0851 0.0000 0.0250 0.1146 8 6.359 7.000 0.0044 0.0851 0.0000 0.0250 0.1146 9 7.267 8.000 0.0044 0.0851 0.0000 0.0250 0.1146 10 8.176 9.000 0.0044 0.0851 0.0000 0.0250 0.1146 11 9.084 10.000 0.0044 0.0851 0.0000 0.0250 0.1146 Scattering Coefficients of Individual Components at 415.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0065 0.2757 0.5116 0.0000 0.7938 2 0.908 1.000 0.0065 0.2757 0.5116 0.0000 0.7938 3 1.817 2.000 0.0065 0.2757 0.5116 0.0000 0.7938 4 2.725 3.000 0.0065 0.2757 0.5116 0.0000 0.7938 5 3.634 4.000 0.0065 0.2757 0.5116 0.0000 0.7938 6 4.542 5.000 0.0065 0.2757 0.5116 0.0000 0.7938 7 5.450 6.000 0.0065 0.2757 0.5116 0.0000 0.7938 8 6.359 7.000 0.0065 0.2757 0.5116 0.0000 0.7938 9 7.267 8.000 0.0065 0.2757 0.5116 0.0000 0.7938 10 8.176 9.000 0.0065 0.2757 0.5116 0.0000 0.7938 11 9.084 10.000 0.0065 0.2757 0.5116 0.0000 0.7938 Backscattering Coefficients of Individual Components at 415.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00323 0.00387 0.00090 0.00000 0.00800 2 0.908 1.000 0.00323 0.00387 0.00090 0.00000 0.00800 3 1.817 2.000 0.00323 0.00387 0.00090 0.00000 0.00800 4 2.725 3.000 0.00323 0.00387 0.00090 0.00000 0.00800 5 3.634 4.000 0.00323 0.00387 0.00090 0.00000 0.00800 6 4.542 5.000 0.00323 0.00387 0.00090 0.00000 0.00800 7 5.450 6.000 0.00323 0.00387 0.00090 0.00000 0.00800 8 6.359 7.000 0.00323 0.00387 0.00090 0.00000 0.00800 9 7.267 8.000 0.00323 0.00387 0.00090 0.00000 0.00800 10 8.176 9.000 0.00323 0.00387 0.00090 0.00000 0.00800 11 9.084 10.000 0.00323 0.00387 0.00090 0.00000 0.00800 Summary of Inherent Optical Properties at 415.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.1146 0.7938 0.9084 0.8739 0.00800 0.01008 2 0.908 1.000 0.1146 0.7938 0.9084 0.8739 0.00800 0.01008 3 1.817 2.000 0.1146 0.7938 0.9084 0.8739 0.00800 0.01008 4 2.725 3.000 0.1146 0.7938 0.9084 0.8739 0.00800 0.01008 5 3.634 4.000 0.1146 0.7938 0.9084 0.8739 0.00800 0.01008 6 4.542 5.000 0.1146 0.7938 0.9084 0.8739 0.00800 0.01008 7 5.450 6.000 0.1146 0.7938 0.9084 0.8739 0.00800 0.01008 8 6.359 7.000 0.1146 0.7938 0.9084 0.8739 0.00800 0.01008 9 7.267 8.000 0.1146 0.7938 0.9084 0.8739 0.00800 0.01008 10 8.176 9.000 0.1146 0.7938 0.9084 0.8739 0.00800 0.01008 11 9.084 10.000 0.1146 0.7938 0.9084 0.8739 0.00800 0.01008 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.5023E-01 8 20.00 8.2743E-01 7 30.00 6.6193E-01 6 40.00 4.9084E-01 5 50.00 3.4160E-01 4 60.00 2.2663E-01 3 70.00 1.4608E-01 2 80.00 9.3826E-02 1 87.50 6.6974E-02 1 92.50 5.2242E-02 2 100.00 3.8280E-02 3 110.00 2.6875E-02 4 120.00 1.9882E-02 5 130.00 1.5646E-02 6 140.00 1.3078E-02 7 150.00 1.1528E-02 8 160.00 1.0619E-02 9 170.00 1.0143E-02 10 180.00 9.9803E-03 Asymptotic source-free water AOP values are MUu(inf) = 0.3567 MUd(inf) = 0.7099 MU(inf) = 0.6354 R(m,inf) = 0.0378 k(inf) = 0.1803 (1/m) absorp(check) = 0.1146 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 415.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.5557E-01 1.7583E+00 1.9139E+00 5.9622E-02 1.3569E+00 0.3832 0.7717 0.6778 4.3939E-02 1 0.00 0.00 8.2862E-02 1.4642E+00 1.5471E+00 3.6052E-02 1.3348E+00 0.4351 0.9116 0.8395 2.7010E-02 2 0.91 1.00 7.8246E-02 1.3187E+00 1.3970E+00 3.2962E-02 1.1637E+00 0.4213 0.8824 0.8094 2.8326E-02 3 1.82 2.00 7.2372E-02 1.1757E+00 1.2481E+00 2.9726E-02 1.0095E+00 0.4107 0.8586 0.7850 2.9447E-02 4 2.73 3.00 6.5847E-02 1.0394E+00 1.1052E+00 2.6525E-02 8.7198E-01 0.4028 0.8389 0.7650 3.0419E-02 5 3.63 4.00 5.9199E-02 9.1259E-01 9.7179E-01 2.3473E-02 7.5042E-01 0.3965 0.8223 0.7481 3.1280E-02 6 4.54 5.00 5.2725E-02 7.9667E-01 8.4940E-01 2.0630E-02 6.4369E-01 0.3913 0.8080 0.7335 3.2050E-02 7 5.45 6.00 4.6595E-02 6.9202E-01 7.3861E-01 1.8025E-02 5.5050E-01 0.3868 0.7955 0.7209 3.2743E-02 8 6.36 7.00 4.0904E-02 5.9845E-01 6.3935E-01 1.5667E-02 4.6955E-01 0.3830 0.7846 0.7099 3.3367E-02 9 7.27 8.00 3.5698E-02 5.1548E-01 5.5118E-01 1.3555E-02 3.9953E-01 0.3797 0.7751 0.7003 3.3927E-02 10 8.18 9.00 3.0992E-02 4.4244E-01 4.7343E-01 1.1679E-02 3.3922E-01 0.3768 0.7667 0.6919 3.4429E-02 11 9.08 10.00 2.6783E-02 3.7853E-01 4.0531E-01 1.0026E-02 2.8745E-01 0.3743 0.7594 0.6845 3.4877E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 415.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.05732 0.10465 0.10206 0.08961 0.13719 0.13854 0.13032 1.000 2.000 1.500 0.07804 0.11477 0.11267 0.10334 0.14216 0.14332 0.13635 2.000 3.000 2.500 0.09448 0.12327 0.12158 0.11394 0.14641 0.14742 0.14139 3.000 4.000 3.500 0.10644 0.13009 0.12867 0.12223 0.15012 0.15101 0.14574 4.000 5.000 4.500 0.11581 0.13584 0.13461 0.12909 0.15342 0.15422 0.14957 5.000 6.000 5.500 0.12359 0.14084 0.13976 0.13499 0.15639 0.15710 0.15301 6.000 7.000 6.500 0.13027 0.14527 0.14432 0.14019 0.15906 0.15971 0.15610 7.000 8.000 7.500 0.13614 0.14924 0.14840 0.14482 0.16147 0.16205 0.15889 8.000 9.000 8.500 0.14135 0.15280 0.15206 0.14896 0.16364 0.16416 0.16140 9.000 10.000 9.500 0.14598 0.15600 0.15534 0.15267 0.16559 0.16606 0.16366 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 415.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 5.249E-02 4.760E-01 3.869E-02 1.136E+00 4.851E-03 3.575E-03 1 0.00 0.00 8.986E-03 5.141E+00 6.732E-03 4.012E+00 2 0.91 1.00 7.888E-03 3.908E+00 6.778E-03 4.179E+00 3 1.82 2.00 6.882E-03 2.932E+00 6.818E-03 4.319E+00 4 2.73 3.00 5.975E-03 2.191E+00 6.852E-03 4.439E+00 5 3.63 4.00 5.165E-03 1.640E+00 6.882E-03 4.545E+00 6 4.54 5.00 4.447E-03 1.234E+00 6.909E-03 4.639E+00 7 5.45 6.00 3.816E-03 9.361E-01 6.932E-03 4.723E+00 8 6.36 7.00 3.265E-03 7.158E-01 6.953E-03 4.799E+00 9 7.27 8.00 2.785E-03 5.523E-01 6.971E-03 4.867E+00 10 8.18 9.00 2.370E-03 4.298E-01 6.986E-03 4.928E+00 11 9.08 10.00 2.012E-03 3.372E-01 7.000E-03 4.983E+00 Waveband 7 of 40 completed in 0.1 sec. * * * * * Output for wavelength band 8 (420.0 to 430.0 nm; nominal wavelength = 425.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 33.0 m at 425.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 420.0 nm to 430.0 nm: Ed(diffuse) = 4.176E-01 Ed(direct) = 8.816E-01 Ed(total) = 1.299E+00 Absorption Coefficients of Individual Components at 425.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0048 0.0863 0.0000 0.0218 0.1128 2 0.906 1.000 0.0048 0.0863 0.0000 0.0218 0.1128 3 1.812 2.000 0.0048 0.0863 0.0000 0.0218 0.1128 4 2.718 3.000 0.0048 0.0863 0.0000 0.0218 0.1128 5 3.624 4.000 0.0048 0.0863 0.0000 0.0218 0.1128 6 4.530 5.000 0.0048 0.0863 0.0000 0.0218 0.1128 7 5.436 6.000 0.0048 0.0863 0.0000 0.0218 0.1128 8 6.342 7.000 0.0048 0.0863 0.0000 0.0218 0.1128 9 7.248 8.000 0.0048 0.0863 0.0000 0.0218 0.1128 10 8.154 9.000 0.0048 0.0863 0.0000 0.0218 0.1128 11 9.060 10.000 0.0048 0.0863 0.0000 0.0218 0.1128 Scattering Coefficients of Individual Components at 425.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0058 0.2757 0.5116 0.0000 0.7932 2 0.906 1.000 0.0058 0.2757 0.5116 0.0000 0.7932 3 1.812 2.000 0.0058 0.2757 0.5116 0.0000 0.7932 4 2.718 3.000 0.0058 0.2757 0.5116 0.0000 0.7932 5 3.624 4.000 0.0058 0.2757 0.5116 0.0000 0.7932 6 4.530 5.000 0.0058 0.2757 0.5116 0.0000 0.7932 7 5.436 6.000 0.0058 0.2757 0.5116 0.0000 0.7932 8 6.342 7.000 0.0058 0.2757 0.5116 0.0000 0.7932 9 7.248 8.000 0.0058 0.2757 0.5116 0.0000 0.7932 10 8.154 9.000 0.0058 0.2757 0.5116 0.0000 0.7932 11 9.060 10.000 0.0058 0.2757 0.5116 0.0000 0.7932 Backscattering Coefficients of Individual Components at 425.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00292 0.00387 0.00090 0.00000 0.00769 2 0.906 1.000 0.00292 0.00387 0.00090 0.00000 0.00769 3 1.812 2.000 0.00292 0.00387 0.00090 0.00000 0.00769 4 2.718 3.000 0.00292 0.00387 0.00090 0.00000 0.00769 5 3.624 4.000 0.00292 0.00387 0.00090 0.00000 0.00769 6 4.530 5.000 0.00292 0.00387 0.00090 0.00000 0.00769 7 5.436 6.000 0.00292 0.00387 0.00090 0.00000 0.00769 8 6.342 7.000 0.00292 0.00387 0.00090 0.00000 0.00769 9 7.248 8.000 0.00292 0.00387 0.00090 0.00000 0.00769 10 8.154 9.000 0.00292 0.00387 0.00090 0.00000 0.00769 11 9.060 10.000 0.00292 0.00387 0.00090 0.00000 0.00769 Summary of Inherent Optical Properties at 425.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.1128 0.7932 0.9060 0.8755 0.00769 0.00969 2 0.906 1.000 0.1128 0.7932 0.9060 0.8755 0.00769 0.00969 3 1.812 2.000 0.1128 0.7932 0.9060 0.8755 0.00769 0.00969 4 2.718 3.000 0.1128 0.7932 0.9060 0.8755 0.00769 0.00969 5 3.624 4.000 0.1128 0.7932 0.9060 0.8755 0.00769 0.00969 6 4.530 5.000 0.1128 0.7932 0.9060 0.8755 0.00769 0.00969 7 5.436 6.000 0.1128 0.7932 0.9060 0.8755 0.00769 0.00969 8 6.342 7.000 0.1128 0.7932 0.9060 0.8755 0.00769 0.00969 9 7.248 8.000 0.1128 0.7932 0.9060 0.8755 0.00769 0.00969 10 8.154 9.000 0.1128 0.7932 0.9060 0.8755 0.00769 0.00969 11 9.060 10.000 0.1128 0.7932 0.9060 0.8755 0.00769 0.00969 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.5062E-01 8 20.00 8.2866E-01 7 30.00 6.6403E-01 6 40.00 4.9343E-01 5 50.00 3.4418E-01 4 60.00 2.2883E-01 3 70.00 1.4774E-01 2 80.00 9.4963E-02 1 87.50 6.7767E-02 1 92.50 5.2813E-02 2 100.00 3.8625E-02 3 110.00 2.7023E-02 4 120.00 1.9902E-02 5 130.00 1.5584E-02 6 140.00 1.2966E-02 7 150.00 1.1384E-02 8 160.00 1.0458E-02 9 170.00 9.9721E-03 10 180.00 9.8057E-03 Asymptotic source-free water AOP values are MUu(inf) = 0.3547 MUd(inf) = 0.7091 MU(inf) = 0.6348 R(m,inf) = 0.0375 k(inf) = 0.1777 (1/m) absorp(check) = 0.1128 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 425.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.4554E-01 1.6721E+00 1.8176E+00 5.6321E-02 1.2992E+00 0.3870 0.7770 0.6838 4.3351E-02 1 0.00 0.00 7.8161E-02 1.3997E+00 1.4778E+00 3.3938E-02 1.2782E+00 0.4342 0.9132 0.8419 2.6552E-02 2 0.91 1.00 7.4104E-02 1.2638E+00 1.3379E+00 3.1146E-02 1.1172E+00 0.4203 0.8840 0.8117 2.7879E-02 3 1.81 2.00 6.8822E-02 1.1298E+00 1.1987E+00 2.8194E-02 9.7166E-01 0.4097 0.8600 0.7871 2.9016E-02 4 2.72 3.00 6.2871E-02 1.0017E+00 1.0645E+00 2.5252E-02 8.4156E-01 0.4016 0.8402 0.7668 3.0006E-02 5 3.62 4.00 5.6747E-02 8.8203E-01 9.3877E-01 2.2428E-02 7.2621E-01 0.3952 0.8233 0.7497 3.0884E-02 6 4.53 5.00 5.0736E-02 7.7225E-01 8.2299E-01 1.9783E-02 6.2461E-01 0.3899 0.8088 0.7349 3.1673E-02 7 5.44 6.00 4.5006E-02 6.7277E-01 7.1778E-01 1.7346E-02 5.3564E-01 0.3854 0.7962 0.7221 3.2383E-02 8 6.34 7.00 3.9652E-02 5.8351E-01 6.2316E-01 1.5129E-02 4.5812E-01 0.3815 0.7851 0.7109 3.3024E-02 9 7.25 8.00 3.4728E-02 5.0408E-01 5.3881E-01 1.3133E-02 3.9087E-01 0.3782 0.7754 0.7011 3.3599E-02 10 8.15 9.00 3.0254E-02 4.3391E-01 4.6416E-01 1.1353E-02 3.3277E-01 0.3752 0.7669 0.6925 3.4116E-02 11 9.06 10.00 2.6233E-02 3.7230E-01 3.9854E-01 9.7768E-03 2.8276E-01 0.3727 0.7595 0.6850 3.4577E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 425.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.05331 0.10213 0.09949 0.08587 0.13464 0.13601 0.12725 1.000 2.000 1.500 0.07395 0.11203 0.10988 0.09957 0.13954 0.14071 0.13325 2.000 3.000 2.500 0.09044 0.12042 0.11867 0.11021 0.14374 0.14476 0.13829 3.000 4.000 3.500 0.10249 0.12719 0.12571 0.11856 0.14742 0.14833 0.14265 4.000 5.000 4.500 0.11197 0.13291 0.13163 0.12550 0.15071 0.15152 0.14651 5.000 6.000 5.500 0.11985 0.13790 0.13678 0.13148 0.15367 0.15440 0.14998 6.000 7.000 6.500 0.12664 0.14234 0.14135 0.13676 0.15634 0.15700 0.15310 7.000 8.000 7.500 0.13261 0.14633 0.14545 0.14146 0.15875 0.15934 0.15592 8.000 9.000 8.500 0.13790 0.14991 0.14913 0.14567 0.16092 0.16145 0.15846 9.000 10.000 9.500 0.14262 0.15312 0.15244 0.14945 0.16288 0.16335 0.16075 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 425.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 5.057E-02 4.413E-01 3.893E-02 1.114E+00 4.533E-03 3.489E-03 1 0.00 0.00 8.397E-03 4.963E+00 6.570E-03 4.042E+00 2 0.91 1.00 7.394E-03 3.783E+00 6.618E-03 4.212E+00 3 1.81 2.00 6.471E-03 2.844E+00 6.660E-03 4.357E+00 4 2.72 3.00 5.636E-03 2.130E+00 6.697E-03 4.481E+00 5 3.62 4.00 4.886E-03 1.598E+00 6.729E-03 4.590E+00 6 4.53 5.00 4.220E-03 1.205E+00 6.757E-03 4.687E+00 7 5.44 6.00 3.633E-03 9.157E-01 6.782E-03 4.775E+00 8 6.34 7.00 3.117E-03 7.016E-01 6.804E-03 4.854E+00 9 7.25 8.00 2.667E-03 5.424E-01 6.823E-03 4.924E+00 10 8.15 9.00 2.276E-03 4.229E-01 6.840E-03 4.988E+00 11 9.06 10.00 1.938E-03 3.325E-01 6.854E-03 5.044E+00 Waveband 8 of 40 completed in 0.1 sec. * * * * * Output for wavelength band 9 (430.0 to 440.0 nm; nominal wavelength = 435.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 33.0 m at 435.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 430.0 nm to 440.0 nm: Ed(diffuse) = 4.160E-01 Ed(direct) = 9.196E-01 Ed(total) = 1.336E+00 Absorption Coefficients of Individual Components at 435.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0053 0.0886 0.0000 0.0189 0.1128 2 0.905 1.000 0.0053 0.0886 0.0000 0.0189 0.1128 3 1.811 2.000 0.0053 0.0886 0.0000 0.0189 0.1128 4 2.716 3.000 0.0053 0.0886 0.0000 0.0189 0.1128 5 3.622 4.000 0.0053 0.0886 0.0000 0.0189 0.1128 6 4.527 5.000 0.0053 0.0886 0.0000 0.0189 0.1128 7 5.433 6.000 0.0053 0.0886 0.0000 0.0189 0.1128 8 6.338 7.000 0.0053 0.0886 0.0000 0.0189 0.1128 9 7.243 8.000 0.0053 0.0886 0.0000 0.0189 0.1128 10 8.149 9.000 0.0053 0.0886 0.0000 0.0189 0.1128 11 9.054 10.000 0.0053 0.0886 0.0000 0.0189 0.1128 Scattering Coefficients of Individual Components at 435.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0053 0.2757 0.5116 0.0000 0.7926 2 0.905 1.000 0.0053 0.2757 0.5116 0.0000 0.7926 3 1.811 2.000 0.0053 0.2757 0.5116 0.0000 0.7926 4 2.716 3.000 0.0053 0.2757 0.5116 0.0000 0.7926 5 3.622 4.000 0.0053 0.2757 0.5116 0.0000 0.7926 6 4.527 5.000 0.0053 0.2757 0.5116 0.0000 0.7926 7 5.433 6.000 0.0053 0.2757 0.5116 0.0000 0.7926 8 6.338 7.000 0.0053 0.2757 0.5116 0.0000 0.7926 9 7.243 8.000 0.0053 0.2757 0.5116 0.0000 0.7926 10 8.149 9.000 0.0053 0.2757 0.5116 0.0000 0.7926 11 9.054 10.000 0.0053 0.2757 0.5116 0.0000 0.7926 Backscattering Coefficients of Individual Components at 435.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00264 0.00387 0.00090 0.00000 0.00741 2 0.905 1.000 0.00264 0.00387 0.00090 0.00000 0.00741 3 1.811 2.000 0.00264 0.00387 0.00090 0.00000 0.00741 4 2.716 3.000 0.00264 0.00387 0.00090 0.00000 0.00741 5 3.622 4.000 0.00264 0.00387 0.00090 0.00000 0.00741 6 4.527 5.000 0.00264 0.00387 0.00090 0.00000 0.00741 7 5.433 6.000 0.00264 0.00387 0.00090 0.00000 0.00741 8 6.338 7.000 0.00264 0.00387 0.00090 0.00000 0.00741 9 7.243 8.000 0.00264 0.00387 0.00090 0.00000 0.00741 10 8.149 9.000 0.00264 0.00387 0.00090 0.00000 0.00741 11 9.054 10.000 0.00264 0.00387 0.00090 0.00000 0.00741 Summary of Inherent Optical Properties at 435.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.1128 0.7926 0.9054 0.8754 0.00741 0.00934 2 0.905 1.000 0.1128 0.7926 0.9054 0.8754 0.00741 0.00934 3 1.811 2.000 0.1128 0.7926 0.9054 0.8754 0.00741 0.00934 4 2.716 3.000 0.1128 0.7926 0.9054 0.8754 0.00741 0.00934 5 3.622 4.000 0.1128 0.7926 0.9054 0.8754 0.00741 0.00934 6 4.527 5.000 0.1128 0.7926 0.9054 0.8754 0.00741 0.00934 7 5.433 6.000 0.1128 0.7926 0.9054 0.8754 0.00741 0.00934 8 6.338 7.000 0.1128 0.7926 0.9054 0.8754 0.00741 0.00934 9 7.243 8.000 0.1128 0.7926 0.9054 0.8754 0.00741 0.00934 10 8.149 9.000 0.1128 0.7926 0.9054 0.8754 0.00741 0.00934 11 9.054 10.000 0.1128 0.7926 0.9054 0.8754 0.00741 0.00934 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.5061E-01 8 20.00 8.2864E-01 7 30.00 6.6396E-01 6 40.00 4.9328E-01 5 50.00 3.4395E-01 4 60.00 2.2851E-01 3 70.00 1.4736E-01 2 80.00 9.4553E-02 1 87.50 6.7347E-02 1 92.50 5.2391E-02 2 100.00 3.8209E-02 3 110.00 2.6621E-02 4 120.00 1.9515E-02 5 130.00 1.5211E-02 6 140.00 1.2603E-02 7 150.00 1.1030E-02 8 160.00 1.0109E-02 9 170.00 9.6258E-03 10 180.00 9.4604E-03 Asymptotic source-free water AOP values are MUu(inf) = 0.3526 MUd(inf) = 0.7093 MU(inf) = 0.6363 R(m,inf) = 0.0367 k(inf) = 0.1772 (1/m) absorp(check) = 0.1128 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 435.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.4581E-01 1.7078E+00 1.8536E+00 5.6899E-02 1.3356E+00 0.3902 0.7820 0.6898 4.2603E-02 1 0.00 0.00 7.7917E-02 1.4357E+00 1.5136E+00 3.3746E-02 1.3139E+00 0.4331 0.9151 0.8457 2.5685E-02 2 0.91 1.00 7.4060E-02 1.2971E+00 1.3711E+00 3.1031E-02 1.1491E+00 0.4190 0.8859 0.8154 2.7006E-02 3 1.81 2.00 6.8933E-02 1.1604E+00 1.2293E+00 2.8141E-02 1.0000E+00 0.4082 0.8618 0.7906 2.8140E-02 4 2.72 3.00 6.3099E-02 1.0295E+00 1.0926E+00 2.5248E-02 8.6672E-01 0.4001 0.8419 0.7701 2.9130E-02 5 3.62 4.00 5.7058E-02 9.0726E-01 9.6432E-01 2.2461E-02 7.4841E-01 0.3936 0.8249 0.7528 3.0011E-02 6 4.53 5.00 5.1102E-02 7.9496E-01 8.4607E-01 1.9841E-02 6.4412E-01 0.3883 0.8103 0.7379 3.0804E-02 7 5.43 6.00 4.5403E-02 6.9309E-01 7.3849E-01 1.7421E-02 5.5273E-01 0.3837 0.7975 0.7249 3.1519E-02 8 6.34 7.00 4.0062E-02 6.0158E-01 6.4164E-01 1.5214E-02 4.7303E-01 0.3798 0.7863 0.7135 3.2164E-02 9 7.24 8.00 3.5135E-02 5.2007E-01 5.5521E-01 1.3224E-02 4.0384E-01 0.3764 0.7765 0.7036 3.2745E-02 10 8.15 9.00 3.0648E-02 4.4799E-01 4.7864E-01 1.1444E-02 3.4403E-01 0.3734 0.7679 0.6948 3.3266E-02 11 9.05 10.00 2.6605E-02 3.8464E-01 4.1125E-01 9.8661E-03 2.9248E-01 0.3708 0.7604 0.6872 3.3732E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 435.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.05077 0.10152 0.09884 0.08389 0.13402 0.13538 0.12607 1.000 2.000 1.500 0.07175 0.11135 0.10917 0.09775 0.13890 0.14006 0.13210 2.000 3.000 2.500 0.08843 0.11968 0.11790 0.10851 0.14309 0.14411 0.13718 3.000 4.000 3.500 0.10063 0.12642 0.12491 0.11696 0.14677 0.14768 0.14158 4.000 5.000 4.500 0.11024 0.13214 0.13083 0.12400 0.15006 0.15088 0.14548 5.000 6.000 5.500 0.11825 0.13714 0.13599 0.13008 0.15302 0.15376 0.14899 6.000 7.000 6.500 0.12515 0.14159 0.14058 0.13544 0.15570 0.15637 0.15216 7.000 8.000 7.500 0.13123 0.14559 0.14469 0.14023 0.15813 0.15873 0.15502 8.000 9.000 8.500 0.13662 0.14919 0.14839 0.14452 0.16031 0.16085 0.15760 9.000 10.000 9.500 0.14146 0.15246 0.15176 0.14839 0.16232 0.16280 0.15996 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 435.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 5.222E-02 4.396E-01 3.910E-02 1.090E+00 4.476E-03 3.351E-03 1 0.00 0.00 8.291E-03 5.143E+00 6.311E-03 4.070E+00 2 0.91 1.00 7.309E-03 3.923E+00 6.361E-03 4.245E+00 3 1.81 2.00 6.405E-03 2.951E+00 6.404E-03 4.394E+00 4 2.72 3.00 5.584E-03 2.211E+00 6.442E-03 4.522E+00 5 3.62 4.00 4.847E-03 1.659E+00 6.476E-03 4.634E+00 6 4.53 5.00 4.190E-03 1.251E+00 6.506E-03 4.735E+00 7 5.43 6.00 3.610E-03 9.510E-01 6.532E-03 4.825E+00 8 6.34 7.00 3.101E-03 7.288E-01 6.555E-03 4.907E+00 9 7.24 8.00 2.656E-03 5.635E-01 6.576E-03 4.980E+00 10 8.15 9.00 2.268E-03 4.394E-01 6.593E-03 5.045E+00 11 9.05 10.00 1.933E-03 3.455E-01 6.609E-03 5.104E+00 Waveband 9 of 40 completed in 0.1 sec. * * * * * Output for wavelength band 10 (440.0 to 450.0 nm; nominal wavelength = 445.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 33.0 m at 445.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 440.0 nm to 450.0 nm: Ed(diffuse) = 4.774E-01 Ed(direct) = 1.097E+00 Ed(total) = 1.574E+00 Absorption Coefficients of Individual Components at 445.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0075 0.0839 0.0000 0.0165 0.1078 2 0.900 1.000 0.0075 0.0839 0.0000 0.0165 0.1078 3 1.800 2.000 0.0075 0.0839 0.0000 0.0165 0.1078 4 2.700 3.000 0.0075 0.0839 0.0000 0.0165 0.1078 5 3.600 4.000 0.0075 0.0839 0.0000 0.0165 0.1078 6 4.500 5.000 0.0075 0.0839 0.0000 0.0165 0.1078 7 5.400 6.000 0.0075 0.0839 0.0000 0.0165 0.1078 8 6.300 7.000 0.0075 0.0839 0.0000 0.0165 0.1078 9 7.200 8.000 0.0075 0.0839 0.0000 0.0165 0.1078 10 8.100 9.000 0.0075 0.0839 0.0000 0.0165 0.1078 11 9.000 10.000 0.0075 0.0839 0.0000 0.0165 0.1078 Scattering Coefficients of Individual Components at 445.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0048 0.2757 0.5116 0.0000 0.7921 2 0.900 1.000 0.0048 0.2757 0.5116 0.0000 0.7921 3 1.800 2.000 0.0048 0.2757 0.5116 0.0000 0.7921 4 2.700 3.000 0.0048 0.2757 0.5116 0.0000 0.7921 5 3.600 4.000 0.0048 0.2757 0.5116 0.0000 0.7921 6 4.500 5.000 0.0048 0.2757 0.5116 0.0000 0.7921 7 5.400 6.000 0.0048 0.2757 0.5116 0.0000 0.7921 8 6.300 7.000 0.0048 0.2757 0.5116 0.0000 0.7921 9 7.200 8.000 0.0048 0.2757 0.5116 0.0000 0.7921 10 8.100 9.000 0.0048 0.2757 0.5116 0.0000 0.7921 11 9.000 10.000 0.0048 0.2757 0.5116 0.0000 0.7921 Backscattering Coefficients of Individual Components at 445.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00239 0.00387 0.00090 0.00000 0.00716 2 0.900 1.000 0.00239 0.00387 0.00090 0.00000 0.00716 3 1.800 2.000 0.00239 0.00387 0.00090 0.00000 0.00716 4 2.700 3.000 0.00239 0.00387 0.00090 0.00000 0.00716 5 3.600 4.000 0.00239 0.00387 0.00090 0.00000 0.00716 6 4.500 5.000 0.00239 0.00387 0.00090 0.00000 0.00716 7 5.400 6.000 0.00239 0.00387 0.00090 0.00000 0.00716 8 6.300 7.000 0.00239 0.00387 0.00090 0.00000 0.00716 9 7.200 8.000 0.00239 0.00387 0.00090 0.00000 0.00716 10 8.100 9.000 0.00239 0.00387 0.00090 0.00000 0.00716 11 9.000 10.000 0.00239 0.00387 0.00090 0.00000 0.00716 Summary of Inherent Optical Properties at 445.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.1078 0.7921 0.9000 0.8802 0.00716 0.00904 2 0.900 1.000 0.1078 0.7921 0.9000 0.8802 0.00716 0.00904 3 1.800 2.000 0.1078 0.7921 0.9000 0.8802 0.00716 0.00904 4 2.700 3.000 0.1078 0.7921 0.9000 0.8802 0.00716 0.00904 5 3.600 4.000 0.1078 0.7921 0.9000 0.8802 0.00716 0.00904 6 4.500 5.000 0.1078 0.7921 0.9000 0.8802 0.00716 0.00904 7 5.400 6.000 0.1078 0.7921 0.9000 0.8802 0.00716 0.00904 8 6.300 7.000 0.1078 0.7921 0.9000 0.8802 0.00716 0.00904 9 7.200 8.000 0.1078 0.7921 0.9000 0.8802 0.00716 0.00904 10 8.100 9.000 0.1078 0.7921 0.9000 0.8802 0.00716 0.00904 11 9.000 10.000 0.1078 0.7921 0.9000 0.8802 0.00716 0.00904 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.5175E-01 8 20.00 8.3232E-01 7 30.00 6.7031E-01 6 40.00 5.0129E-01 5 50.00 3.5220E-01 4 60.00 2.3587E-01 3 70.00 1.5328E-01 2 80.00 9.9010E-02 1 87.50 7.0792E-02 1 92.50 5.5170E-02 2 100.00 4.0290E-02 3 110.00 2.8065E-02 4 120.00 2.0524E-02 5 130.00 1.5935E-02 6 140.00 1.3143E-02 7 150.00 1.1454E-02 8 160.00 1.0463E-02 9 170.00 9.9423E-03 10 180.00 9.7639E-03 Asymptotic source-free water AOP values are MUu(inf) = 0.3514 MUd(inf) = 0.7060 MU(inf) = 0.6311 R(m,inf) = 0.0379 k(inf) = 0.1708 (1/m) absorp(check) = 0.1078 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 445.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.6969E-01 2.0024E+00 2.1721E+00 6.6883E-02 1.5744E+00 0.3942 0.7863 0.6940 4.2481E-02 1 0.00 0.00 9.3523E-02 1.6926E+00 1.7861E+00 4.0468E-02 1.5497E+00 0.4327 0.9156 0.8450 2.6113E-02 2 0.90 1.00 8.9471E-02 1.5380E+00 1.6275E+00 3.7464E-02 1.3632E+00 0.4187 0.8864 0.8146 2.7482E-02 3 1.80 2.00 8.3887E-02 1.3846E+00 1.4684E+00 3.4218E-02 1.1936E+00 0.4079 0.8621 0.7895 2.8669E-02 4 2.70 3.00 7.7365E-02 1.2363E+00 1.3137E+00 3.0923E-02 1.0408E+00 0.3997 0.8419 0.7687 2.9711E-02 5 3.60 4.00 7.0487E-02 1.0966E+00 1.1671E+00 2.7709E-02 9.0427E-01 0.3931 0.8246 0.7511 3.0643E-02 6 4.50 5.00 6.3603E-02 9.6723E-01 1.0308E+00 2.4655E-02 7.8314E-01 0.3876 0.8097 0.7358 3.1483E-02 7 5.40 6.00 5.6930E-02 8.4888E-01 9.0581E-01 2.1804E-02 6.7625E-01 0.3830 0.7966 0.7225 3.2242E-02 8 6.30 7.00 5.0603E-02 7.4171E-01 7.9232E-01 1.9179E-02 5.8242E-01 0.3790 0.7852 0.7109 3.2929E-02 9 7.20 8.00 4.4704E-02 6.4549E-01 6.9020E-01 1.6788E-02 5.0040E-01 0.3755 0.7752 0.7007 3.3549E-02 10 8.10 9.00 3.9277E-02 5.5974E-01 5.9902E-01 1.4631E-02 4.2900E-01 0.3725 0.7664 0.6917 3.4105E-02 11 9.00 10.00 3.4341E-02 4.8380E-01 5.1814E-01 1.2702E-02 3.6707E-01 0.3699 0.7587 0.6839 3.4604E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 445.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.04429 0.09576 0.09300 0.07712 0.12820 0.12961 0.11967 1.000 2.000 1.500 0.06445 0.10513 0.10285 0.09062 0.13291 0.13413 0.12557 2.000 3.000 2.500 0.08093 0.11326 0.11139 0.10127 0.13699 0.13806 0.13058 3.000 4.000 3.500 0.09311 0.11989 0.11830 0.10972 0.14059 0.14155 0.13494 4.000 5.000 4.500 0.10276 0.12555 0.12416 0.11678 0.14382 0.14469 0.13883 5.000 6.000 5.500 0.11083 0.13052 0.12929 0.12290 0.14674 0.14753 0.14234 6.000 7.000 6.500 0.11781 0.13495 0.13387 0.12831 0.14939 0.15010 0.14550 7.000 8.000 7.500 0.12396 0.13894 0.13798 0.13315 0.15178 0.15242 0.14837 8.000 9.000 8.500 0.12942 0.14254 0.14169 0.13749 0.15394 0.15452 0.15096 9.000 10.000 9.500 0.13431 0.14580 0.14504 0.14139 0.15591 0.15643 0.15330 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 445.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 6.201E-02 5.044E-01 3.939E-02 1.079E+00 5.325E-03 3.382E-03 1 0.00 0.00 9.863E-03 6.102E+00 6.365E-03 4.103E+00 2 0.90 1.00 8.751E-03 4.680E+00 6.419E-03 4.281E+00 3 1.80 2.00 7.718E-03 3.540E+00 6.466E-03 4.433E+00 4 2.70 3.00 6.773E-03 2.666E+00 6.508E-03 4.565E+00 5 3.60 4.00 5.918E-03 2.011E+00 6.545E-03 4.682E+00 6 4.50 5.00 5.151E-03 1.525E+00 6.578E-03 4.786E+00 7 5.40 6.00 4.468E-03 1.165E+00 6.607E-03 4.880E+00 8 6.30 7.00 3.863E-03 8.977E-01 6.632E-03 4.965E+00 9 7.20 8.00 3.330E-03 6.978E-01 6.655E-03 5.041E+00 10 8.10 9.00 2.864E-03 5.471E-01 6.675E-03 5.109E+00 11 9.00 10.00 2.457E-03 4.325E-01 6.692E-03 5.171E+00 Waveband 10 of 40 completed in 0.1 sec. * * * * * Output for wavelength band 11 (450.0 to 460.0 nm; nominal wavelength = 455.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 33.0 m at 455.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 450.0 nm to 460.0 nm: Ed(diffuse) = 4.976E-01 Ed(direct) = 1.185E+00 Ed(total) = 1.683E+00 Absorption Coefficients of Individual Components at 455.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0096 0.0763 0.0000 0.0143 0.1002 2 0.892 1.000 0.0096 0.0763 0.0000 0.0143 0.1002 3 1.784 2.000 0.0096 0.0763 0.0000 0.0143 0.1002 4 2.676 3.000 0.0096 0.0763 0.0000 0.0143 0.1002 5 3.568 4.000 0.0096 0.0763 0.0000 0.0143 0.1002 6 4.460 5.000 0.0096 0.0763 0.0000 0.0143 0.1002 7 5.352 6.000 0.0096 0.0763 0.0000 0.0143 0.1002 8 6.243 7.000 0.0096 0.0763 0.0000 0.0143 0.1002 9 7.135 8.000 0.0096 0.0763 0.0000 0.0143 0.1002 10 8.027 9.000 0.0096 0.0763 0.0000 0.0143 0.1002 11 8.919 10.000 0.0096 0.0763 0.0000 0.0143 0.1002 Scattering Coefficients of Individual Components at 455.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0043 0.2757 0.5116 0.0000 0.7917 2 0.892 1.000 0.0043 0.2757 0.5116 0.0000 0.7917 3 1.784 2.000 0.0043 0.2757 0.5116 0.0000 0.7917 4 2.676 3.000 0.0043 0.2757 0.5116 0.0000 0.7917 5 3.568 4.000 0.0043 0.2757 0.5116 0.0000 0.7917 6 4.460 5.000 0.0043 0.2757 0.5116 0.0000 0.7917 7 5.352 6.000 0.0043 0.2757 0.5116 0.0000 0.7917 8 6.243 7.000 0.0043 0.2757 0.5116 0.0000 0.7917 9 7.135 8.000 0.0043 0.2757 0.5116 0.0000 0.7917 10 8.027 9.000 0.0043 0.2757 0.5116 0.0000 0.7917 11 8.919 10.000 0.0043 0.2757 0.5116 0.0000 0.7917 Backscattering Coefficients of Individual Components at 455.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00217 0.00387 0.00090 0.00000 0.00694 2 0.892 1.000 0.00217 0.00387 0.00090 0.00000 0.00694 3 1.784 2.000 0.00217 0.00387 0.00090 0.00000 0.00694 4 2.676 3.000 0.00217 0.00387 0.00090 0.00000 0.00694 5 3.568 4.000 0.00217 0.00387 0.00090 0.00000 0.00694 6 4.460 5.000 0.00217 0.00387 0.00090 0.00000 0.00694 7 5.352 6.000 0.00217 0.00387 0.00090 0.00000 0.00694 8 6.243 7.000 0.00217 0.00387 0.00090 0.00000 0.00694 9 7.135 8.000 0.00217 0.00387 0.00090 0.00000 0.00694 10 8.027 9.000 0.00217 0.00387 0.00090 0.00000 0.00694 11 8.919 10.000 0.00217 0.00387 0.00090 0.00000 0.00694 Summary of Inherent Optical Properties at 455.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.1002 0.7917 0.8919 0.8877 0.00694 0.00877 2 0.892 1.000 0.1002 0.7917 0.8919 0.8877 0.00694 0.00877 3 1.784 2.000 0.1002 0.7917 0.8919 0.8877 0.00694 0.00877 4 2.676 3.000 0.1002 0.7917 0.8919 0.8877 0.00694 0.00877 5 3.568 4.000 0.1002 0.7917 0.8919 0.8877 0.00694 0.00877 6 4.460 5.000 0.1002 0.7917 0.8919 0.8877 0.00694 0.00877 7 5.352 6.000 0.1002 0.7917 0.8919 0.8877 0.00694 0.00877 8 6.243 7.000 0.1002 0.7917 0.8919 0.8877 0.00694 0.00877 9 7.135 8.000 0.1002 0.7917 0.8919 0.8877 0.00694 0.00877 10 8.027 9.000 0.1002 0.7917 0.8919 0.8877 0.00694 0.00877 11 8.919 10.000 0.1002 0.7917 0.8919 0.8877 0.00694 0.00877 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.5356E-01 8 20.00 8.3818E-01 7 30.00 6.8053E-01 6 40.00 5.1435E-01 5 50.00 3.6586E-01 4 60.00 2.4829E-01 3 70.00 1.6349E-01 2 80.00 1.0687E-01 1 87.50 7.6991E-02 1 92.50 6.0257E-02 2 100.00 4.4196E-02 3 110.00 3.0874E-02 4 120.00 2.2570E-02 5 130.00 1.7472E-02 6 140.00 1.4349E-02 7 150.00 1.2448E-02 8 160.00 1.1328E-02 9 170.00 1.0738E-02 10 180.00 1.0536E-02 Asymptotic source-free water AOP values are MUu(inf) = 0.3511 MUd(inf) = 0.7005 MU(inf) = 0.6216 R(m,inf) = 0.0406 k(inf) = 0.1612 (1/m) absorp(check) = 0.1002 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 455.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.8086E-01 2.1294E+00 2.3103E+00 7.2135E-02 1.6825E+00 0.3989 0.7901 0.6970 4.2873E-02 1 0.00 0.00 1.0578E-01 1.8124E+00 1.9182E+00 4.5812E-02 1.6580E+00 0.4331 0.9148 0.8405 2.7630E-02 2 0.89 1.00 1.0198E-01 1.6610E+00 1.7630E+00 4.2788E-02 1.4712E+00 0.4196 0.8857 0.8102 2.9084E-02 3 1.78 2.00 9.6533E-02 1.5091E+00 1.6057E+00 3.9460E-02 1.2997E+00 0.4088 0.8612 0.7848 3.0362E-02 4 2.68 3.00 8.9929E-02 1.3604E+00 1.4504E+00 3.6015E-02 1.1436E+00 0.4005 0.8406 0.7637 3.1493E-02 5 3.57 4.00 8.2780E-02 1.2185E+00 1.3013E+00 3.2599E-02 1.0028E+00 0.3938 0.8230 0.7456 3.2508E-02 6 4.46 5.00 7.5474E-02 1.0853E+00 1.1608E+00 2.9301E-02 8.7661E-01 0.3882 0.8077 0.7299 3.3426E-02 7 5.35 6.00 6.8261E-02 9.6196E-01 1.0302E+00 2.6177E-02 7.6411E-01 0.3835 0.7943 0.7163 3.4258E-02 8 6.24 7.00 6.1307E-02 8.4889E-01 9.1019E-01 2.3260E-02 6.6433E-01 0.3794 0.7826 0.7043 3.5012E-02 9 7.14 8.00 5.4723E-02 7.4614E-01 8.0086E-01 2.0568E-02 5.7624E-01 0.3759 0.7723 0.6938 3.5693E-02 10 8.03 9.00 4.8578E-02 6.5348E-01 7.0206E-01 1.8108E-02 4.9876E-01 0.3728 0.7632 0.6846 3.6306E-02 11 8.92 10.00 4.2911E-02 5.7047E-01 6.1338E-01 1.5880E-02 4.3087E-01 0.3701 0.7553 0.6766 3.6856E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 455.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.03655 0.08722 0.08436 0.06827 0.11954 0.12104 0.11060 1.000 2.000 1.500 0.05493 0.09589 0.09347 0.08099 0.12399 0.12531 0.11627 2.000 3.000 2.500 0.07086 0.10372 0.10172 0.09134 0.12791 0.12907 0.12114 3.000 4.000 3.500 0.08283 0.11019 0.10848 0.09965 0.13138 0.13243 0.12542 4.000 5.000 4.500 0.09240 0.11575 0.11425 0.10665 0.13451 0.13546 0.12925 5.000 6.000 5.500 0.10045 0.12065 0.11933 0.11275 0.13735 0.13821 0.13270 6.000 7.000 6.500 0.10744 0.12505 0.12387 0.11816 0.13993 0.14071 0.13584 7.000 8.000 7.500 0.11361 0.12901 0.12797 0.12301 0.14227 0.14297 0.13868 8.000 9.000 8.500 0.11911 0.13260 0.13167 0.12737 0.14439 0.14502 0.14126 9.000 10.000 9.500 0.12404 0.13585 0.13503 0.13129 0.14632 0.14689 0.14359 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 455.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 6.696E-02 5.258E-01 3.980E-02 1.077E+00 5.987E-03 3.559E-03 1 0.00 0.00 1.109E-02 6.559E+00 6.688E-03 4.131E+00 2 0.89 1.00 9.928E-03 5.072E+00 6.748E-03 4.310E+00 3 1.78 2.00 8.838E-03 3.867E+00 6.801E-03 4.465E+00 4 2.68 3.00 7.830E-03 2.936E+00 6.847E-03 4.600E+00 5 3.57 4.00 6.907E-03 2.233E+00 6.888E-03 4.720E+00 6 4.46 5.00 6.070E-03 1.707E+00 6.924E-03 4.828E+00 7 5.35 6.00 5.315E-03 1.314E+00 6.956E-03 4.925E+00 8 6.24 7.00 4.640E-03 1.021E+00 6.985E-03 5.013E+00 9 7.14 8.00 4.039E-03 8.000E-01 7.010E-03 5.092E+00 10 8.03 9.00 3.507E-03 6.324E-01 7.032E-03 5.163E+00 11 8.92 10.00 3.038E-03 5.041E-01 7.051E-03 5.227E+00 Waveband 11 of 40 completed in 0.1 sec. * * * * * Output for wavelength band 12 (460.0 to 470.0 nm; nominal wavelength = 465.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 33.0 m at 465.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 460.0 nm to 470.0 nm: Ed(diffuse) = 4.835E-01 Ed(direct) = 1.190E+00 Ed(total) = 1.673E+00 Absorption Coefficients of Individual Components at 465.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0101 0.0716 0.0000 0.0124 0.0941 2 0.885 1.000 0.0101 0.0716 0.0000 0.0124 0.0941 3 1.771 2.000 0.0101 0.0716 0.0000 0.0124 0.0941 4 2.656 3.000 0.0101 0.0716 0.0000 0.0124 0.0941 5 3.542 4.000 0.0101 0.0716 0.0000 0.0124 0.0941 6 4.427 5.000 0.0101 0.0716 0.0000 0.0124 0.0941 7 5.313 6.000 0.0101 0.0716 0.0000 0.0124 0.0941 8 6.198 7.000 0.0101 0.0716 0.0000 0.0124 0.0941 9 7.084 8.000 0.0101 0.0716 0.0000 0.0124 0.0941 10 7.969 9.000 0.0101 0.0716 0.0000 0.0124 0.0941 11 8.855 10.000 0.0101 0.0716 0.0000 0.0124 0.0941 Scattering Coefficients of Individual Components at 465.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0040 0.2757 0.5116 0.0000 0.7913 2 0.885 1.000 0.0040 0.2757 0.5116 0.0000 0.7913 3 1.771 2.000 0.0040 0.2757 0.5116 0.0000 0.7913 4 2.656 3.000 0.0040 0.2757 0.5116 0.0000 0.7913 5 3.542 4.000 0.0040 0.2757 0.5116 0.0000 0.7913 6 4.427 5.000 0.0040 0.2757 0.5116 0.0000 0.7913 7 5.313 6.000 0.0040 0.2757 0.5116 0.0000 0.7913 8 6.198 7.000 0.0040 0.2757 0.5116 0.0000 0.7913 9 7.084 8.000 0.0040 0.2757 0.5116 0.0000 0.7913 10 7.969 9.000 0.0040 0.2757 0.5116 0.0000 0.7913 11 8.855 10.000 0.0040 0.2757 0.5116 0.0000 0.7913 Backscattering Coefficients of Individual Components at 465.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00198 0.00387 0.00090 0.00000 0.00675 2 0.885 1.000 0.00198 0.00387 0.00090 0.00000 0.00675 3 1.771 2.000 0.00198 0.00387 0.00090 0.00000 0.00675 4 2.656 3.000 0.00198 0.00387 0.00090 0.00000 0.00675 5 3.542 4.000 0.00198 0.00387 0.00090 0.00000 0.00675 6 4.427 5.000 0.00198 0.00387 0.00090 0.00000 0.00675 7 5.313 6.000 0.00198 0.00387 0.00090 0.00000 0.00675 8 6.198 7.000 0.00198 0.00387 0.00090 0.00000 0.00675 9 7.084 8.000 0.00198 0.00387 0.00090 0.00000 0.00675 10 7.969 9.000 0.00198 0.00387 0.00090 0.00000 0.00675 11 8.855 10.000 0.00198 0.00387 0.00090 0.00000 0.00675 Summary of Inherent Optical Properties at 465.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0941 0.7913 0.8855 0.8937 0.00675 0.00853 2 0.885 1.000 0.0941 0.7913 0.8855 0.8937 0.00675 0.00853 3 1.771 2.000 0.0941 0.7913 0.8855 0.8937 0.00675 0.00853 4 2.656 3.000 0.0941 0.7913 0.8855 0.8937 0.00675 0.00853 5 3.542 4.000 0.0941 0.7913 0.8855 0.8937 0.00675 0.00853 6 4.427 5.000 0.0941 0.7913 0.8855 0.8937 0.00675 0.00853 7 5.313 6.000 0.0941 0.7913 0.8855 0.8937 0.00675 0.00853 8 6.198 7.000 0.0941 0.7913 0.8855 0.8937 0.00675 0.00853 9 7.084 8.000 0.0941 0.7913 0.8855 0.8937 0.00675 0.00853 10 7.969 9.000 0.0941 0.7913 0.8855 0.8937 0.00675 0.00853 11 8.855 10.000 0.0941 0.7913 0.8855 0.8937 0.00675 0.00853 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.5504E-01 8 20.00 8.4300E-01 7 30.00 6.8901E-01 6 40.00 5.2530E-01 5 50.00 3.7747E-01 4 60.00 2.5898E-01 3 70.00 1.7241E-01 2 80.00 1.1383E-01 1 87.50 8.2530E-02 1 92.50 6.4830E-02 2 100.00 4.7730E-02 3 110.00 3.3431E-02 4 120.00 2.4438E-02 5 130.00 1.8874E-02 6 140.00 1.5445E-02 7 150.00 1.3348E-02 8 160.00 1.2107E-02 9 170.00 1.1453E-02 10 180.00 1.1228E-02 Asymptotic source-free water AOP values are MUu(inf) = 0.3509 MUd(inf) = 0.6958 MU(inf) = 0.6136 R(m,inf) = 0.0430 k(inf) = 0.1534 (1/m) absorp(check) = 0.0941 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 465.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.7950E-01 2.1083E+00 2.2878E+00 7.2378E-02 1.6733E+00 0.4032 0.7937 0.6998 4.3255E-02 1 0.00 0.00 1.1064E-01 1.8058E+00 1.9164E+00 4.7966E-02 1.6507E+00 0.4335 0.9141 0.8363 2.9058E-02 2 0.89 1.00 1.0730E-01 1.6662E+00 1.7735E+00 4.5110E-02 1.4749E+00 0.4204 0.8852 0.8062 3.0585E-02 3 1.77 2.00 1.0232E-01 1.5252E+00 1.6275E+00 4.1917E-02 1.3123E+00 0.4097 0.8604 0.7806 3.1942E-02 4 2.66 3.00 9.6077E-02 1.3855E+00 1.4816E+00 3.8560E-02 1.1632E+00 0.4013 0.8396 0.7591 3.3150E-02 5 3.54 4.00 8.9163E-02 1.2507E+00 1.3398E+00 3.5183E-02 1.0276E+00 0.3946 0.8216 0.7407 3.4239E-02 6 4.43 5.00 8.1966E-02 1.1228E+00 1.2048E+00 3.1880E-02 9.0501E-01 0.3889 0.8060 0.7247 3.5226E-02 7 5.31 6.00 7.4748E-02 1.0031E+00 1.0779E+00 2.8712E-02 7.9486E-01 0.3841 0.7924 0.7108 3.6122E-02 8 6.20 7.00 6.7692E-02 8.9233E-01 9.6002E-01 2.5720E-02 6.9635E-01 0.3800 0.7804 0.6986 3.6935E-02 9 7.08 8.00 6.0925E-02 7.9064E-01 8.5156E-01 2.2928E-02 6.0865E-01 0.3763 0.7698 0.6878 3.7670E-02 10 7.97 9.00 5.4532E-02 6.9804E-01 7.5257E-01 2.0350E-02 5.3089E-01 0.3732 0.7605 0.6784 3.8333E-02 11 8.85 10.00 4.8569E-02 6.1429E-01 6.6286E-01 1.7992E-02 4.6219E-01 0.3704 0.7524 0.6701 3.8927E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 465.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.03068 0.08042 0.07748 0.06138 0.11259 0.11417 0.10342 1.000 2.000 1.500 0.04754 0.08847 0.08595 0.07341 0.11684 0.11824 0.10889 2.000 3.000 2.500 0.06294 0.09605 0.09394 0.08348 0.12060 0.12185 0.11364 3.000 4.000 3.500 0.07469 0.10238 0.10056 0.09166 0.12397 0.12510 0.11784 4.000 5.000 4.500 0.08416 0.10785 0.10625 0.09859 0.12701 0.12804 0.12161 5.000 6.000 5.500 0.09217 0.11269 0.11128 0.10465 0.12978 0.13071 0.12503 6.000 7.000 6.500 0.09915 0.11705 0.11580 0.11005 0.13231 0.13315 0.12813 7.000 8.000 7.500 0.10534 0.12099 0.11988 0.11490 0.13461 0.13537 0.13095 8.000 9.000 8.500 0.11086 0.12457 0.12358 0.11927 0.13669 0.13738 0.13351 9.000 10.000 9.500 0.11579 0.12780 0.12693 0.12319 0.13858 0.13919 0.13582 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 465.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 6.722E-02 5.109E-01 4.017E-02 1.077E+00 6.236E-03 3.727E-03 1 0.00 0.00 1.155E-02 6.558E+00 6.996E-03 4.154E+00 2 0.89 1.00 1.041E-02 5.104E+00 7.060E-03 4.332E+00 3 1.77 2.00 9.339E-03 3.917E+00 7.117E-03 4.488E+00 4 2.66 3.00 8.336E-03 2.993E+00 7.166E-03 4.626E+00 5 3.54 4.00 7.409E-03 2.291E+00 7.210E-03 4.748E+00 6 4.43 5.00 6.561E-03 1.762E+00 7.250E-03 4.859E+00 7 5.31 6.00 5.790E-03 1.366E+00 7.284E-03 4.959E+00 8 6.20 7.00 5.094E-03 1.068E+00 7.315E-03 5.050E+00 9 7.08 8.00 4.468E-03 8.421E-01 7.341E-03 5.131E+00 10 7.97 9.00 3.910E-03 6.701E-01 7.365E-03 5.205E+00 11 8.85 10.00 3.413E-03 5.377E-01 7.385E-03 5.271E+00 Waveband 12 of 40 completed in 0.1 sec. * * * * * Output for wavelength band 13 (470.0 to 480.0 nm; nominal wavelength = 475.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 33.0 m at 475.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 470.0 nm to 480.0 nm: Ed(diffuse) = 4.798E-01 Ed(direct) = 1.217E+00 Ed(total) = 1.696E+00 Absorption Coefficients of Individual Components at 475.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0114 0.0655 0.0000 0.0108 0.0877 2 0.879 1.000 0.0114 0.0655 0.0000 0.0108 0.0877 3 1.757 2.000 0.0114 0.0655 0.0000 0.0108 0.0877 4 2.636 3.000 0.0114 0.0655 0.0000 0.0108 0.0877 5 3.515 4.000 0.0114 0.0655 0.0000 0.0108 0.0877 6 4.394 5.000 0.0114 0.0655 0.0000 0.0108 0.0877 7 5.272 6.000 0.0114 0.0655 0.0000 0.0108 0.0877 8 6.151 7.000 0.0114 0.0655 0.0000 0.0108 0.0877 9 7.030 8.000 0.0114 0.0655 0.0000 0.0108 0.0877 10 7.908 9.000 0.0114 0.0655 0.0000 0.0108 0.0877 11 8.787 10.000 0.0114 0.0655 0.0000 0.0108 0.0877 Scattering Coefficients of Individual Components at 475.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0036 0.2757 0.5116 0.0000 0.7910 2 0.879 1.000 0.0036 0.2757 0.5116 0.0000 0.7910 3 1.757 2.000 0.0036 0.2757 0.5116 0.0000 0.7910 4 2.636 3.000 0.0036 0.2757 0.5116 0.0000 0.7910 5 3.515 4.000 0.0036 0.2757 0.5116 0.0000 0.7910 6 4.394 5.000 0.0036 0.2757 0.5116 0.0000 0.7910 7 5.272 6.000 0.0036 0.2757 0.5116 0.0000 0.7910 8 6.151 7.000 0.0036 0.2757 0.5116 0.0000 0.7910 9 7.030 8.000 0.0036 0.2757 0.5116 0.0000 0.7910 10 7.908 9.000 0.0036 0.2757 0.5116 0.0000 0.7910 11 8.787 10.000 0.0036 0.2757 0.5116 0.0000 0.7910 Backscattering Coefficients of Individual Components at 475.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00180 0.00387 0.00090 0.00000 0.00657 2 0.879 1.000 0.00180 0.00387 0.00090 0.00000 0.00657 3 1.757 2.000 0.00180 0.00387 0.00090 0.00000 0.00657 4 2.636 3.000 0.00180 0.00387 0.00090 0.00000 0.00657 5 3.515 4.000 0.00180 0.00387 0.00090 0.00000 0.00657 6 4.394 5.000 0.00180 0.00387 0.00090 0.00000 0.00657 7 5.272 6.000 0.00180 0.00387 0.00090 0.00000 0.00657 8 6.151 7.000 0.00180 0.00387 0.00090 0.00000 0.00657 9 7.030 8.000 0.00180 0.00387 0.00090 0.00000 0.00657 10 7.908 9.000 0.00180 0.00387 0.00090 0.00000 0.00657 11 8.787 10.000 0.00180 0.00387 0.00090 0.00000 0.00657 Summary of Inherent Optical Properties at 475.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0877 0.7910 0.8787 0.9002 0.00657 0.00831 2 0.879 1.000 0.0877 0.7910 0.8787 0.9002 0.00657 0.00831 3 1.757 2.000 0.0877 0.7910 0.8787 0.9002 0.00657 0.00831 4 2.636 3.000 0.0877 0.7910 0.8787 0.9002 0.00657 0.00831 5 3.515 4.000 0.0877 0.7910 0.8787 0.9002 0.00657 0.00831 6 4.394 5.000 0.0877 0.7910 0.8787 0.9002 0.00657 0.00831 7 5.272 6.000 0.0877 0.7910 0.8787 0.9002 0.00657 0.00831 8 6.151 7.000 0.0877 0.7910 0.8787 0.9002 0.00657 0.00831 9 7.030 8.000 0.0877 0.7910 0.8787 0.9002 0.00657 0.00831 10 7.908 9.000 0.0877 0.7910 0.8787 0.9002 0.00657 0.00831 11 8.787 10.000 0.0877 0.7910 0.8787 0.9002 0.00657 0.00831 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.5665E-01 8 20.00 8.4827E-01 7 30.00 6.9835E-01 6 40.00 5.3750E-01 5 50.00 3.9057E-01 4 60.00 2.7124E-01 3 70.00 1.8279E-01 2 80.00 1.2206E-01 1 87.50 8.9165E-02 1 92.50 7.0360E-02 2 100.00 5.2058E-02 3 110.00 3.6609E-02 4 120.00 2.6792E-02 5 130.00 2.0664E-02 6 140.00 1.6859E-02 7 150.00 1.4519E-02 8 160.00 1.3129E-02 9 170.00 1.2393E-02 10 180.00 1.2140E-02 Asymptotic source-free water AOP values are MUu(inf) = 0.3512 MUd(inf) = 0.6906 MU(inf) = 0.6041 R(m,inf) = 0.0460 k(inf) = 0.1452 (1/m) absorp(check) = 0.0877 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 475.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.8237E-01 2.1288E+00 2.3112E+00 7.4330E-02 1.6965E+00 0.4076 0.7969 0.7019 4.3815E-02 1 0.00 0.00 1.1899E-01 1.8354E+00 1.9544E+00 5.1661E-02 1.6757E+00 0.4342 0.9130 0.8310 3.0830E-02 2 0.88 1.00 1.1607E-01 1.7055E+00 1.8216E+00 4.8927E-02 1.5081E+00 0.4215 0.8843 0.8011 3.2442E-02 3 1.76 2.00 1.1151E-01 1.5732E+00 1.6847E+00 4.5819E-02 1.3519E+00 0.4109 0.8593 0.7753 3.3892E-02 4 2.64 3.00 1.0556E-01 1.4406E+00 1.5462E+00 4.2493E-02 1.2075E+00 0.4025 0.8382 0.7535 3.5191E-02 5 3.51 4.00 9.8791E-02 1.3111E+00 1.4099E+00 3.9094E-02 1.0750E+00 0.3957 0.8199 0.7348 3.6367E-02 6 4.39 5.00 9.1595E-02 1.1868E+00 1.2784E+00 3.5722E-02 9.5422E-01 0.3900 0.8040 0.7185 3.7435E-02 7 5.27 6.00 8.4250E-02 1.0692E+00 1.1534E+00 3.2445E-02 8.4474E-01 0.3851 0.7901 0.7042 3.8408E-02 8 6.15 7.00 7.6958E-02 9.5910E-01 1.0361E+00 2.9311E-02 7.4598E-01 0.3809 0.7778 0.6917 3.9291E-02 9 7.03 8.00 6.9865E-02 8.5698E-01 9.2684E-01 2.6351E-02 6.5729E-01 0.3772 0.7670 0.6807 4.0091E-02 10 7.91 9.00 6.3076E-02 7.6301E-01 8.2609E-01 2.3588E-02 5.7797E-01 0.3740 0.7575 0.6711 4.0812E-02 11 8.79 10.00 5.6666E-02 6.7717E-01 7.3383E-01 2.1032E-02 5.0728E-01 0.3712 0.7491 0.6626 4.1460E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 475.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.02488 0.07338 0.07036 0.05437 0.10535 0.10701 0.09595 1.000 2.000 1.500 0.04004 0.08076 0.07811 0.06564 0.10937 0.11087 0.10119 2.000 3.000 2.500 0.05483 0.08805 0.08582 0.07537 0.11298 0.11432 0.10581 3.000 4.000 3.500 0.06629 0.09422 0.09229 0.08337 0.11622 0.11744 0.10991 4.000 5.000 4.500 0.07563 0.09958 0.09788 0.09021 0.11917 0.12028 0.11361 5.000 6.000 5.500 0.08358 0.10436 0.10285 0.09622 0.12187 0.12288 0.11698 6.000 7.000 6.500 0.09053 0.10867 0.10733 0.10159 0.12433 0.12525 0.12004 7.000 8.000 7.500 0.09670 0.11258 0.11139 0.10642 0.12657 0.12740 0.12283 8.000 9.000 8.500 0.10222 0.11613 0.11508 0.11078 0.12861 0.12936 0.12535 9.000 10.000 9.500 0.10717 0.11936 0.11842 0.11471 0.13046 0.13114 0.12764 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 475.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 6.884E-02 5.070E-01 4.058E-02 1.080E+00 6.683E-03 3.939E-03 1 0.00 0.00 1.238E-02 6.680E+00 7.385E-03 4.175E+00 2 0.88 1.00 1.124E-02 5.235E+00 7.455E-03 4.352E+00 3 1.76 2.00 1.016E-02 4.045E+00 7.516E-03 4.509E+00 4 2.64 3.00 9.141E-03 3.112E+00 7.570E-03 4.649E+00 5 3.51 4.00 8.189E-03 2.397E+00 7.618E-03 4.774E+00 6 4.39 5.00 7.310E-03 1.857E+00 7.661E-03 4.887E+00 7 5.27 6.00 6.503E-03 1.449E+00 7.698E-03 4.989E+00 8 6.15 7.00 5.767E-03 1.140E+00 7.731E-03 5.082E+00 9 7.03 8.00 5.101E-03 9.056E-01 7.760E-03 5.166E+00 10 7.91 9.00 4.500E-03 7.256E-01 7.786E-03 5.242E+00 11 8.79 10.00 3.961E-03 5.863E-01 7.808E-03 5.310E+00 Waveband 13 of 40 completed in 0.2 sec. * * * * * Output for wavelength band 14 (480.0 to 490.0 nm; nominal wavelength = 485.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 33.0 m at 485.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 480.0 nm to 490.0 nm: Ed(diffuse) = 4.552E-01 Ed(direct) = 1.186E+00 Ed(total) = 1.641E+00 Absorption Coefficients of Individual Components at 485.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0136 0.0597 0.0000 0.0094 0.0827 2 0.873 1.000 0.0136 0.0597 0.0000 0.0094 0.0827 3 1.747 2.000 0.0136 0.0597 0.0000 0.0094 0.0827 4 2.620 3.000 0.0136 0.0597 0.0000 0.0094 0.0827 5 3.493 4.000 0.0136 0.0597 0.0000 0.0094 0.0827 6 4.367 5.000 0.0136 0.0597 0.0000 0.0094 0.0827 7 5.240 6.000 0.0136 0.0597 0.0000 0.0094 0.0827 8 6.113 7.000 0.0136 0.0597 0.0000 0.0094 0.0827 9 6.987 8.000 0.0136 0.0597 0.0000 0.0094 0.0827 10 7.860 9.000 0.0136 0.0597 0.0000 0.0094 0.0827 11 8.733 10.000 0.0136 0.0597 0.0000 0.0094 0.0827 Scattering Coefficients of Individual Components at 485.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0033 0.2757 0.5116 0.0000 0.7907 2 0.873 1.000 0.0033 0.2757 0.5116 0.0000 0.7907 3 1.747 2.000 0.0033 0.2757 0.5116 0.0000 0.7907 4 2.620 3.000 0.0033 0.2757 0.5116 0.0000 0.7907 5 3.493 4.000 0.0033 0.2757 0.5116 0.0000 0.7907 6 4.367 5.000 0.0033 0.2757 0.5116 0.0000 0.7907 7 5.240 6.000 0.0033 0.2757 0.5116 0.0000 0.7907 8 6.113 7.000 0.0033 0.2757 0.5116 0.0000 0.7907 9 6.987 8.000 0.0033 0.2757 0.5116 0.0000 0.7907 10 7.860 9.000 0.0033 0.2757 0.5116 0.0000 0.7907 11 8.733 10.000 0.0033 0.2757 0.5116 0.0000 0.7907 Backscattering Coefficients of Individual Components at 485.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00165 0.00387 0.00090 0.00000 0.00642 2 0.873 1.000 0.00165 0.00387 0.00090 0.00000 0.00642 3 1.747 2.000 0.00165 0.00387 0.00090 0.00000 0.00642 4 2.620 3.000 0.00165 0.00387 0.00090 0.00000 0.00642 5 3.493 4.000 0.00165 0.00387 0.00090 0.00000 0.00642 6 4.367 5.000 0.00165 0.00387 0.00090 0.00000 0.00642 7 5.240 6.000 0.00165 0.00387 0.00090 0.00000 0.00642 8 6.113 7.000 0.00165 0.00387 0.00090 0.00000 0.00642 9 6.987 8.000 0.00165 0.00387 0.00090 0.00000 0.00642 10 7.860 9.000 0.00165 0.00387 0.00090 0.00000 0.00642 11 8.733 10.000 0.00165 0.00387 0.00090 0.00000 0.00642 Summary of Inherent Optical Properties at 485.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0827 0.7907 0.8733 0.9053 0.00642 0.00812 2 0.873 1.000 0.0827 0.7907 0.8733 0.9053 0.00642 0.00812 3 1.747 2.000 0.0827 0.7907 0.8733 0.9053 0.00642 0.00812 4 2.620 3.000 0.0827 0.7907 0.8733 0.9053 0.00642 0.00812 5 3.493 4.000 0.0827 0.7907 0.8733 0.9053 0.00642 0.00812 6 4.367 5.000 0.0827 0.7907 0.8733 0.9053 0.00642 0.00812 7 5.240 6.000 0.0827 0.7907 0.8733 0.9053 0.00642 0.00812 8 6.113 7.000 0.0827 0.7907 0.8733 0.9053 0.00642 0.00812 9 6.987 8.000 0.0827 0.7907 0.8733 0.9053 0.00642 0.00812 10 7.860 9.000 0.0827 0.7907 0.8733 0.9053 0.00642 0.00812 11 8.733 10.000 0.0827 0.7907 0.8733 0.9053 0.00642 0.00812 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.5796E-01 8 20.00 8.5256E-01 7 30.00 7.0601E-01 6 40.00 5.4760E-01 5 50.00 4.0153E-01 4 60.00 2.8162E-01 3 70.00 1.9169E-01 2 80.00 1.2921E-01 1 87.50 9.4977E-02 1 92.50 7.5232E-02 2 100.00 5.5896E-02 3 110.00 3.9446E-02 4 120.00 2.8900E-02 5 130.00 2.2268E-02 6 140.00 1.8125E-02 7 150.00 1.5564E-02 8 160.00 1.4037E-02 9 170.00 1.3227E-02 10 180.00 1.2948E-02 Asymptotic source-free water AOP values are MUu(inf) = 0.3515 MUd(inf) = 0.6862 MU(inf) = 0.5962 R(m,inf) = 0.0487 k(inf) = 0.1387 (1/m) absorp(check) = 0.0827 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 485.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.7672E-01 2.0521E+00 2.2288E+00 7.2703E-02 1.6413E+00 0.4114 0.7998 0.7038 4.4297E-02 1 0.00 0.00 1.2085E-01 1.7795E+00 1.9003E+00 5.2530E-02 1.6229E+00 0.4347 0.9120 0.8264 3.2368E-02 2 0.87 1.00 1.1841E-01 1.6627E+00 1.7811E+00 5.0026E-02 1.4691E+00 0.4225 0.8835 0.7967 3.4053E-02 3 1.75 2.00 1.1443E-01 1.5431E+00 1.6576E+00 4.7138E-02 1.3247E+00 0.4119 0.8584 0.7707 3.5584E-02 4 2.62 3.00 1.0902E-01 1.4221E+00 1.5311E+00 4.3998E-02 1.1904E+00 0.4036 0.8371 0.7487 3.6962E-02 5 3.49 4.00 1.0271E-01 1.3026E+00 1.4053E+00 4.0747E-02 1.0663E+00 0.3967 0.8186 0.7298 3.8214E-02 6 4.37 5.00 9.5879E-02 1.1869E+00 1.2828E+00 3.7481E-02 9.5241E-01 0.3909 0.8024 0.7132 3.9354E-02 7 5.24 6.00 8.8798E-02 1.0764E+00 1.1652E+00 3.4273E-02 8.4847E-01 0.3860 0.7882 0.6987 4.0394E-02 8 6.11 7.00 8.1673E-02 9.7207E-01 1.0537E+00 3.1172E-02 7.5405E-01 0.3817 0.7757 0.6860 4.1340E-02 9 6.99 8.00 7.4658E-02 8.7442E-01 9.4908E-01 2.8216E-02 6.6866E-01 0.3779 0.7647 0.6748 4.2197E-02 10 7.86 9.00 6.7869E-02 7.8380E-01 8.5167E-01 2.5428E-02 5.9176E-01 0.3747 0.7550 0.6650 4.2971E-02 11 8.73 10.00 6.1393E-02 7.0032E-01 7.6171E-01 2.2827E-02 5.2274E-01 0.3718 0.7464 0.6563 4.3667E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 485.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.02041 0.06784 0.06476 0.04884 0.09961 0.10135 0.09000 1.000 2.000 1.500 0.03415 0.07465 0.07191 0.05948 0.10344 0.10503 0.09507 2.000 3.000 2.500 0.04841 0.08171 0.07937 0.06892 0.10692 0.10835 0.09957 3.000 4.000 3.500 0.05963 0.08773 0.08570 0.07677 0.11007 0.11137 0.10359 4.000 5.000 4.500 0.06884 0.09300 0.09121 0.08353 0.11294 0.11413 0.10723 5.000 6.000 5.500 0.07672 0.09771 0.09613 0.08949 0.11557 0.11665 0.11055 6.000 7.000 6.500 0.08364 0.10198 0.10057 0.09483 0.11798 0.11896 0.11358 7.000 8.000 7.500 0.08981 0.10587 0.10462 0.09965 0.12018 0.12107 0.11634 8.000 9.000 8.500 0.09533 0.10941 0.10829 0.10400 0.12218 0.12299 0.11884 9.000 10.000 9.500 0.10028 0.11262 0.11163 0.10793 0.12400 0.12473 0.12111 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 485.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 6.718E-02 4.810E-01 4.093E-02 1.082E+00 6.766E-03 4.123E-03 1 0.00 0.00 1.253E-02 6.490E+00 7.720E-03 4.193E+00 2 0.87 1.00 1.145E-02 5.114E+00 7.795E-03 4.369E+00 3 1.75 2.00 1.041E-02 3.973E+00 7.860E-03 4.527E+00 4 2.62 3.00 9.426E-03 3.072E+00 7.918E-03 4.668E+00 5 3.49 4.00 8.498E-03 2.380E+00 7.970E-03 4.795E+00 6 4.37 5.00 7.634E-03 1.853E+00 8.015E-03 4.910E+00 7 5.24 6.00 6.835E-03 1.454E+00 8.056E-03 5.014E+00 8 6.11 7.00 6.101E-03 1.150E+00 8.091E-03 5.109E+00 9 6.99 8.00 5.431E-03 9.183E-01 8.122E-03 5.195E+00 10 7.86 9.00 4.823E-03 7.398E-01 8.150E-03 5.273E+00 11 8.73 10.00 4.273E-03 6.011E-01 8.173E-03 5.343E+00 Waveband 14 of 40 completed in 0.2 sec. * * * * * Output for wavelength band 15 (490.0 to 500.0 nm; nominal wavelength = 495.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 33.0 m at 495.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 490.0 nm to 500.0 nm: Ed(diffuse) = 4.533E-01 Ed(direct) = 1.211E+00 Ed(total) = 1.665E+00 Absorption Coefficients of Individual Components at 495.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0173 0.0537 0.0000 0.0082 0.0792 2 0.870 1.000 0.0173 0.0537 0.0000 0.0082 0.0792 3 1.739 2.000 0.0173 0.0537 0.0000 0.0082 0.0792 4 2.609 3.000 0.0173 0.0537 0.0000 0.0082 0.0792 5 3.478 4.000 0.0173 0.0537 0.0000 0.0082 0.0792 6 4.348 5.000 0.0173 0.0537 0.0000 0.0082 0.0792 7 5.217 6.000 0.0173 0.0537 0.0000 0.0082 0.0792 8 6.087 7.000 0.0173 0.0537 0.0000 0.0082 0.0792 9 6.956 8.000 0.0173 0.0537 0.0000 0.0082 0.0792 10 7.826 9.000 0.0173 0.0537 0.0000 0.0082 0.0792 11 8.695 10.000 0.0173 0.0537 0.0000 0.0082 0.0792 Scattering Coefficients of Individual Components at 495.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0030 0.2757 0.5116 0.0000 0.7904 2 0.870 1.000 0.0030 0.2757 0.5116 0.0000 0.7904 3 1.739 2.000 0.0030 0.2757 0.5116 0.0000 0.7904 4 2.609 3.000 0.0030 0.2757 0.5116 0.0000 0.7904 5 3.478 4.000 0.0030 0.2757 0.5116 0.0000 0.7904 6 4.348 5.000 0.0030 0.2757 0.5116 0.0000 0.7904 7 5.217 6.000 0.0030 0.2757 0.5116 0.0000 0.7904 8 6.087 7.000 0.0030 0.2757 0.5116 0.0000 0.7904 9 6.956 8.000 0.0030 0.2757 0.5116 0.0000 0.7904 10 7.826 9.000 0.0030 0.2757 0.5116 0.0000 0.7904 11 8.695 10.000 0.0030 0.2757 0.5116 0.0000 0.7904 Backscattering Coefficients of Individual Components at 495.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00151 0.00387 0.00090 0.00000 0.00628 2 0.870 1.000 0.00151 0.00387 0.00090 0.00000 0.00628 3 1.739 2.000 0.00151 0.00387 0.00090 0.00000 0.00628 4 2.609 3.000 0.00151 0.00387 0.00090 0.00000 0.00628 5 3.478 4.000 0.00151 0.00387 0.00090 0.00000 0.00628 6 4.348 5.000 0.00151 0.00387 0.00090 0.00000 0.00628 7 5.217 6.000 0.00151 0.00387 0.00090 0.00000 0.00628 8 6.087 7.000 0.00151 0.00387 0.00090 0.00000 0.00628 9 6.956 8.000 0.00151 0.00387 0.00090 0.00000 0.00628 10 7.826 9.000 0.00151 0.00387 0.00090 0.00000 0.00628 11 8.695 10.000 0.00151 0.00387 0.00090 0.00000 0.00628 Summary of Inherent Optical Properties at 495.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0792 0.7904 0.8695 0.9090 0.00628 0.00794 2 0.870 1.000 0.0792 0.7904 0.8695 0.9090 0.00628 0.00794 3 1.739 2.000 0.0792 0.7904 0.8695 0.9090 0.00628 0.00794 4 2.609 3.000 0.0792 0.7904 0.8695 0.9090 0.00628 0.00794 5 3.478 4.000 0.0792 0.7904 0.8695 0.9090 0.00628 0.00794 6 4.348 5.000 0.0792 0.7904 0.8695 0.9090 0.00628 0.00794 7 5.217 6.000 0.0792 0.7904 0.8695 0.9090 0.00628 0.00794 8 6.087 7.000 0.0792 0.7904 0.8695 0.9090 0.00628 0.00794 9 6.956 8.000 0.0792 0.7904 0.8695 0.9090 0.00628 0.00794 10 7.826 9.000 0.0792 0.7904 0.8695 0.9090 0.00628 0.00794 11 8.695 10.000 0.0792 0.7904 0.8695 0.9090 0.00628 0.00794 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.5889E-01 8 20.00 8.5562E-01 7 30.00 7.1150E-01 6 40.00 5.5489E-01 5 50.00 4.0950E-01 4 60.00 2.8924E-01 3 70.00 1.9828E-01 2 80.00 1.3454E-01 1 87.50 9.9327E-02 1 92.50 7.8888E-02 2 100.00 5.8782E-02 3 110.00 4.1579E-02 4 120.00 3.0480E-02 5 130.00 2.3463E-02 6 140.00 1.9058E-02 7 150.00 1.6327E-02 8 160.00 1.4693E-02 9 170.00 1.3825E-02 10 180.00 1.3526E-02 Asymptotic source-free water AOP values are MUu(inf) = 0.3516 MUd(inf) = 0.6831 MU(inf) = 0.5906 R(m,inf) = 0.0506 k(inf) = 0.1340 (1/m) absorp(check) = 0.0792 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 495.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.7893E-01 2.0745E+00 2.2534E+00 7.4185E-02 1.6648E+00 0.4146 0.8025 0.7059 4.4562E-02 1 0.00 0.00 1.2643E-01 1.8073E+00 1.9337E+00 5.4993E-02 1.6474E+00 0.4350 0.9116 0.8235 3.3381E-02 2 0.87 1.00 1.2430E-01 1.6953E+00 1.8196E+00 5.2589E-02 1.4973E+00 0.4231 0.8832 0.7940 3.5123E-02 3 1.74 2.00 1.2066E-01 1.5801E+00 1.7008E+00 4.9780E-02 1.3558E+00 0.4126 0.8580 0.7679 3.6716E-02 4 2.61 3.00 1.1551E-01 1.4627E+00 1.5782E+00 4.6686E-02 1.2235E+00 0.4042 0.8365 0.7457 3.8157E-02 5 3.48 4.00 1.0936E-01 1.3460E+00 1.4554E+00 4.3446E-02 1.1008E+00 0.3973 0.8178 0.7265 3.9468E-02 6 4.35 5.00 1.0259E-01 1.2322E+00 1.3348E+00 4.0161E-02 9.8757E-01 0.3915 0.8015 0.7098 4.0667E-02 7 5.22 6.00 9.5494E-02 1.1228E+00 1.2183E+00 3.6904E-02 8.8371E-01 0.3865 0.7871 0.6951 4.1761E-02 8 6.09 7.00 8.8274E-02 1.0188E+00 1.1070E+00 3.3731E-02 7.8890E-01 0.3821 0.7744 0.6822 4.2757E-02 9 6.96 8.00 8.1098E-02 9.2079E-01 1.0019E+00 3.0683E-02 7.0274E-01 0.3783 0.7632 0.6708 4.3661E-02 10 7.83 9.00 7.4094E-02 8.2932E-01 9.0342E-01 2.7788E-02 6.2475E-01 0.3750 0.7533 0.6608 4.4479E-02 11 8.70 10.00 6.7360E-02 7.4455E-01 8.1191E-01 2.5068E-02 5.5442E-01 0.3722 0.7446 0.6520 4.5215E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 495.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.01697 0.06397 0.06083 0.04470 0.09557 0.09737 0.08562 1.000 2.000 1.500 0.02976 0.07036 0.06753 0.05490 0.09926 0.10092 0.09057 2.000 3.000 2.500 0.04365 0.07722 0.07480 0.06416 0.10265 0.10415 0.09499 3.000 4.000 3.500 0.05471 0.08313 0.08102 0.07192 0.10572 0.10709 0.09897 4.000 5.000 4.500 0.06385 0.08833 0.08647 0.07863 0.10853 0.10978 0.10258 5.000 6.000 5.500 0.07171 0.09300 0.09135 0.08457 0.11112 0.11226 0.10587 6.000 7.000 6.500 0.07862 0.09724 0.09577 0.08990 0.11348 0.11452 0.10888 7.000 8.000 7.500 0.08478 0.10110 0.09979 0.09472 0.11565 0.11660 0.11163 8.000 9.000 8.500 0.09032 0.10463 0.10346 0.09908 0.11763 0.11849 0.11413 9.000 10.000 9.500 0.09529 0.10783 0.10680 0.10302 0.11943 0.12020 0.11639 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 495.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 6.860E-02 4.790E-01 4.120E-02 1.081E+00 7.056E-03 4.238E-03 1 0.00 0.00 1.306E-02 6.608E+00 7.930E-03 4.209E+00 2 0.87 1.00 1.199E-02 5.228E+00 8.009E-03 4.385E+00 3 1.74 2.00 1.095E-02 4.076E+00 8.079E-03 4.544E+00 4 2.61 3.00 9.961E-03 3.164E+00 8.141E-03 4.687E+00 5 3.48 4.00 9.023E-03 2.460E+00 8.197E-03 4.815E+00 6 4.35 5.00 8.143E-03 1.923E+00 8.246E-03 4.932E+00 7 5.22 6.00 7.325E-03 1.514E+00 8.289E-03 5.038E+00 8 6.09 7.00 6.569E-03 1.202E+00 8.327E-03 5.135E+00 9 6.96 8.00 5.875E-03 9.637E-01 8.361E-03 5.222E+00 10 7.83 9.00 5.242E-03 7.793E-01 8.390E-03 5.301E+00 11 8.70 10.00 4.666E-03 6.356E-01 8.416E-03 5.373E+00 Waveband 15 of 40 completed in 0.2 sec. * * * * * Output for wavelength band 16 (500.0 to 510.0 nm; nominal wavelength = 505.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 33.0 m at 505.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 500.0 nm to 510.0 nm: Ed(diffuse) = 4.374E-01 Ed(direct) = 1.197E+00 Ed(total) = 1.634E+00 Absorption Coefficients of Individual Components at 505.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0256 0.0455 0.0000 0.0071 0.0782 2 0.868 1.000 0.0256 0.0455 0.0000 0.0071 0.0782 3 1.737 2.000 0.0256 0.0455 0.0000 0.0071 0.0782 4 2.605 3.000 0.0256 0.0455 0.0000 0.0071 0.0782 5 3.473 4.000 0.0256 0.0455 0.0000 0.0071 0.0782 6 4.342 5.000 0.0256 0.0455 0.0000 0.0071 0.0782 7 5.210 6.000 0.0256 0.0455 0.0000 0.0071 0.0782 8 6.079 7.000 0.0256 0.0455 0.0000 0.0071 0.0782 9 6.947 8.000 0.0256 0.0455 0.0000 0.0071 0.0782 10 7.815 9.000 0.0256 0.0455 0.0000 0.0071 0.0782 11 8.684 10.000 0.0256 0.0455 0.0000 0.0071 0.0782 Scattering Coefficients of Individual Components at 505.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0028 0.2757 0.5116 0.0000 0.7901 2 0.868 1.000 0.0028 0.2757 0.5116 0.0000 0.7901 3 1.737 2.000 0.0028 0.2757 0.5116 0.0000 0.7901 4 2.605 3.000 0.0028 0.2757 0.5116 0.0000 0.7901 5 3.473 4.000 0.0028 0.2757 0.5116 0.0000 0.7901 6 4.342 5.000 0.0028 0.2757 0.5116 0.0000 0.7901 7 5.210 6.000 0.0028 0.2757 0.5116 0.0000 0.7901 8 6.079 7.000 0.0028 0.2757 0.5116 0.0000 0.7901 9 6.947 8.000 0.0028 0.2757 0.5116 0.0000 0.7901 10 7.815 9.000 0.0028 0.2757 0.5116 0.0000 0.7901 11 8.684 10.000 0.0028 0.2757 0.5116 0.0000 0.7901 Backscattering Coefficients of Individual Components at 505.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00138 0.00387 0.00090 0.00000 0.00615 2 0.868 1.000 0.00138 0.00387 0.00090 0.00000 0.00615 3 1.737 2.000 0.00138 0.00387 0.00090 0.00000 0.00615 4 2.605 3.000 0.00138 0.00387 0.00090 0.00000 0.00615 5 3.473 4.000 0.00138 0.00387 0.00090 0.00000 0.00615 6 4.342 5.000 0.00138 0.00387 0.00090 0.00000 0.00615 7 5.210 6.000 0.00138 0.00387 0.00090 0.00000 0.00615 8 6.079 7.000 0.00138 0.00387 0.00090 0.00000 0.00615 9 6.947 8.000 0.00138 0.00387 0.00090 0.00000 0.00615 10 7.815 9.000 0.00138 0.00387 0.00090 0.00000 0.00615 11 8.684 10.000 0.00138 0.00387 0.00090 0.00000 0.00615 Summary of Inherent Optical Properties at 505.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0782 0.7901 0.8684 0.9099 0.00615 0.00779 2 0.868 1.000 0.0782 0.7901 0.8684 0.9099 0.00615 0.00779 3 1.737 2.000 0.0782 0.7901 0.8684 0.9099 0.00615 0.00779 4 2.605 3.000 0.0782 0.7901 0.8684 0.9099 0.00615 0.00779 5 3.473 4.000 0.0782 0.7901 0.8684 0.9099 0.00615 0.00779 6 4.342 5.000 0.0782 0.7901 0.8684 0.9099 0.00615 0.00779 7 5.210 6.000 0.0782 0.7901 0.8684 0.9099 0.00615 0.00779 8 6.079 7.000 0.0782 0.7901 0.8684 0.9099 0.00615 0.00779 9 6.947 8.000 0.0782 0.7901 0.8684 0.9099 0.00615 0.00779 10 7.815 9.000 0.0782 0.7901 0.8684 0.9099 0.00615 0.00779 11 8.684 10.000 0.0782 0.7901 0.8684 0.9099 0.00615 0.00779 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.5913E-01 8 20.00 8.5642E-01 7 30.00 7.1292E-01 6 40.00 5.5676E-01 5 50.00 4.1154E-01 4 60.00 2.9115E-01 3 70.00 1.9990E-01 2 80.00 1.3581E-01 1 87.50 1.0033E-01 1 92.50 7.9696E-02 2 100.00 5.9380E-02 3 110.00 4.1974E-02 4 120.00 3.0729E-02 5 130.00 2.3610E-02 6 140.00 1.9138E-02 7 150.00 1.6362E-02 8 160.00 1.4702E-02 9 170.00 1.3819E-02 10 180.00 1.3515E-02 Asymptotic source-free water AOP values are MUu(inf) = 0.3509 MUd(inf) = 0.6824 MU(inf) = 0.5896 R(m,inf) = 0.0507 k(inf) = 0.1327 (1/m) absorp(check) = 0.0782 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 505.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.7392E-01 2.0298E+00 2.2037E+00 7.2478E-02 1.6340E+00 0.4167 0.8050 0.7086 4.4357E-02 1 0.00 0.00 1.2393E-01 1.7730E+00 1.8970E+00 5.3868E-02 1.6172E+00 0.4347 0.9121 0.8241 3.3310E-02 2 0.87 1.00 1.2204E-01 1.6651E+00 1.7872E+00 5.1600E-02 1.4716E+00 0.4228 0.8838 0.7946 3.5064E-02 3 1.74 2.00 1.1868E-01 1.5541E+00 1.6727E+00 4.8930E-02 1.3342E+00 0.4123 0.8586 0.7684 3.6672E-02 4 2.61 3.00 1.1382E-01 1.4406E+00 1.5544E+00 4.5971E-02 1.2057E+00 0.4039 0.8369 0.7461 3.8129E-02 5 3.47 4.00 1.0796E-01 1.3275E+00 1.4355E+00 4.2856E-02 1.0861E+00 0.3969 0.8182 0.7268 3.9458E-02 6 4.34 5.00 1.0147E-01 1.2171E+00 1.3185E+00 3.9685E-02 9.7573E-01 0.3911 0.8017 0.7099 4.0673E-02 7 5.21 6.00 9.4625E-02 1.1106E+00 1.2052E+00 3.6530E-02 8.7429E-01 0.3861 0.7872 0.6951 4.1783E-02 8 6.08 7.00 8.7627E-02 1.0092E+00 1.0968E+00 3.3446E-02 7.8156E-01 0.3817 0.7745 0.6821 4.2794E-02 9 6.95 8.00 8.0644E-02 9.1347E-01 9.9412E-01 3.0474E-02 6.9715E-01 0.3779 0.7632 0.6706 4.3713E-02 10 7.82 9.00 7.3806E-02 8.2394E-01 8.9774E-01 2.7645E-02 6.2063E-01 0.3746 0.7533 0.6605 4.4543E-02 11 8.68 10.00 6.7211E-02 7.4079E-01 8.0800E-01 2.4979E-02 5.5152E-01 0.3717 0.7445 0.6517 4.5292E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 505.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.01533 0.06278 0.05961 0.04301 0.09433 0.09615 0.08412 1.000 2.000 1.500 0.02793 0.06904 0.06618 0.05314 0.09799 0.09966 0.08905 2.000 3.000 2.500 0.04178 0.07584 0.07338 0.06238 0.10135 0.10286 0.09347 3.000 4.000 3.500 0.05284 0.08171 0.07956 0.07015 0.10440 0.10578 0.09745 4.000 5.000 4.500 0.06200 0.08688 0.08499 0.07688 0.10720 0.10846 0.10106 5.000 6.000 5.500 0.06989 0.09154 0.08985 0.08284 0.10977 0.11092 0.10436 6.000 7.000 6.500 0.07683 0.09577 0.09427 0.08820 0.11213 0.11318 0.10739 7.000 8.000 7.500 0.08304 0.09963 0.09830 0.09305 0.11429 0.11525 0.11014 8.000 9.000 8.500 0.08861 0.10316 0.10197 0.09744 0.11626 0.11713 0.11265 9.000 10.000 9.500 0.09361 0.10637 0.10532 0.10140 0.11806 0.11884 0.11492 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 505.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 6.752E-02 4.622E-01 4.132E-02 1.073E+00 6.885E-03 4.213E-03 1 0.00 0.00 1.275E-02 6.509E+00 7.882E-03 4.226E+00 2 0.87 1.00 1.172E-02 5.155E+00 7.963E-03 4.403E+00 3 1.74 2.00 1.072E-02 4.024E+00 8.035E-03 4.564E+00 4 2.61 3.00 9.764E-03 3.128E+00 8.098E-03 4.708E+00 5 3.47 4.00 8.857E-03 2.434E+00 8.155E-03 4.839E+00 6 4.34 5.00 8.006E-03 1.904E+00 8.205E-03 4.957E+00 7 5.21 6.00 7.213E-03 1.501E+00 8.250E-03 5.065E+00 8 6.08 7.00 6.478E-03 1.193E+00 8.289E-03 5.163E+00 9 6.95 8.00 5.803E-03 9.574E-01 8.323E-03 5.252E+00 10 7.82 9.00 5.184E-03 7.750E-01 8.353E-03 5.332E+00 11 8.68 10.00 4.622E-03 6.328E-01 8.380E-03 5.405E+00 Waveband 16 of 40 completed in 0.2 sec. * * * * * Output for wavelength band 17 (510.0 to 520.0 nm; nominal wavelength = 515.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 33.0 m at 515.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 510.0 nm to 520.0 nm: Ed(diffuse) = 4.143E-01 Ed(direct) = 1.158E+00 Ed(total) = 1.572E+00 Absorption Coefficients of Individual Components at 515.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0396 0.0382 0.0000 0.0062 0.0840 2 0.874 1.000 0.0396 0.0382 0.0000 0.0062 0.0840 3 1.748 2.000 0.0396 0.0382 0.0000 0.0062 0.0840 4 2.622 3.000 0.0396 0.0382 0.0000 0.0062 0.0840 5 3.496 4.000 0.0396 0.0382 0.0000 0.0062 0.0840 6 4.369 5.000 0.0396 0.0382 0.0000 0.0062 0.0840 7 5.243 6.000 0.0396 0.0382 0.0000 0.0062 0.0840 8 6.117 7.000 0.0396 0.0382 0.0000 0.0062 0.0840 9 6.991 8.000 0.0396 0.0382 0.0000 0.0062 0.0840 10 7.865 9.000 0.0396 0.0382 0.0000 0.0062 0.0840 11 8.739 10.000 0.0396 0.0382 0.0000 0.0062 0.0840 Scattering Coefficients of Individual Components at 515.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0025 0.2757 0.5116 0.0000 0.7899 2 0.874 1.000 0.0025 0.2757 0.5116 0.0000 0.7899 3 1.748 2.000 0.0025 0.2757 0.5116 0.0000 0.7899 4 2.622 3.000 0.0025 0.2757 0.5116 0.0000 0.7899 5 3.496 4.000 0.0025 0.2757 0.5116 0.0000 0.7899 6 4.369 5.000 0.0025 0.2757 0.5116 0.0000 0.7899 7 5.243 6.000 0.0025 0.2757 0.5116 0.0000 0.7899 8 6.117 7.000 0.0025 0.2757 0.5116 0.0000 0.7899 9 6.991 8.000 0.0025 0.2757 0.5116 0.0000 0.7899 10 7.865 9.000 0.0025 0.2757 0.5116 0.0000 0.7899 11 8.739 10.000 0.0025 0.2757 0.5116 0.0000 0.7899 Backscattering Coefficients of Individual Components at 515.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00127 0.00387 0.00090 0.00000 0.00604 2 0.874 1.000 0.00127 0.00387 0.00090 0.00000 0.00604 3 1.748 2.000 0.00127 0.00387 0.00090 0.00000 0.00604 4 2.622 3.000 0.00127 0.00387 0.00090 0.00000 0.00604 5 3.496 4.000 0.00127 0.00387 0.00090 0.00000 0.00604 6 4.369 5.000 0.00127 0.00387 0.00090 0.00000 0.00604 7 5.243 6.000 0.00127 0.00387 0.00090 0.00000 0.00604 8 6.117 7.000 0.00127 0.00387 0.00090 0.00000 0.00604 9 6.991 8.000 0.00127 0.00387 0.00090 0.00000 0.00604 10 7.865 9.000 0.00127 0.00387 0.00090 0.00000 0.00604 11 8.739 10.000 0.00127 0.00387 0.00090 0.00000 0.00604 Summary of Inherent Optical Properties at 515.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0840 0.7899 0.8739 0.9039 0.00604 0.00765 2 0.874 1.000 0.0840 0.7899 0.8739 0.9039 0.00604 0.00765 3 1.748 2.000 0.0840 0.7899 0.8739 0.9039 0.00604 0.00765 4 2.622 3.000 0.0840 0.7899 0.8739 0.9039 0.00604 0.00765 5 3.496 4.000 0.0840 0.7899 0.8739 0.9039 0.00604 0.00765 6 4.369 5.000 0.0840 0.7899 0.8739 0.9039 0.00604 0.00765 7 5.243 6.000 0.0840 0.7899 0.8739 0.9039 0.00604 0.00765 8 6.117 7.000 0.0840 0.7899 0.8739 0.9039 0.00604 0.00765 9 6.991 8.000 0.0840 0.7899 0.8739 0.9039 0.00604 0.00765 10 7.865 9.000 0.0840 0.7899 0.8739 0.9039 0.00604 0.00765 11 8.739 10.000 0.0840 0.7899 0.8739 0.9039 0.00604 0.00765 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.5760E-01 8 20.00 8.5136E-01 7 30.00 7.0381E-01 6 40.00 5.4460E-01 5 50.00 3.9813E-01 4 60.00 2.7821E-01 3 70.00 1.8855E-01 2 80.00 1.2646E-01 1 87.50 9.2546E-02 1 92.50 7.3038E-02 2 100.00 5.3979E-02 3 110.00 3.7815E-02 4 120.00 2.7491E-02 5 130.00 2.1021E-02 6 140.00 1.6991E-02 7 150.00 1.4506E-02 8 160.00 1.3028E-02 9 170.00 1.2245E-02 10 180.00 1.1975E-02 Asymptotic source-free water AOP values are MUu(inf) = 0.3480 MUd(inf) = 0.6879 MU(inf) = 0.6009 R(m,inf) = 0.0464 k(inf) = 0.1397 (1/m) absorp(check) = 0.0840 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 515.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.6189E-01 1.9474E+00 2.1093E+00 6.7396E-02 1.5719E+00 0.4163 0.8072 0.7133 4.2875E-02 1 0.00 0.00 1.0890E-01 1.6968E+00 1.8057E+00 4.7123E-02 1.5534E+00 0.4327 0.9155 0.8342 3.0335E-02 2 0.87 1.00 1.0699E-01 1.5845E+00 1.6915E+00 4.4953E-02 1.4052E+00 0.4201 0.8868 0.8042 3.1990E-02 3 1.75 2.00 1.0360E-01 1.4696E+00 1.5732E+00 4.2411E-02 1.2663E+00 0.4094 0.8617 0.7780 3.3493E-02 4 2.62 3.00 9.8849E-02 1.3534E+00 1.4522E+00 3.9627E-02 1.1371E+00 0.4009 0.8402 0.7557 3.4850E-02 5 3.50 4.00 9.3238E-02 1.2389E+00 1.3321E+00 3.6727E-02 1.0178E+00 0.3939 0.8215 0.7365 3.6085E-02 6 4.37 5.00 8.7116E-02 1.1282E+00 1.2153E+00 3.3805E-02 9.0842E-01 0.3880 0.8052 0.7197 3.7212E-02 7 5.24 6.00 8.0738E-02 1.0225E+00 1.1032E+00 3.0924E-02 8.0865E-01 0.3830 0.7909 0.7050 3.8241E-02 8 6.12 7.00 7.4297E-02 9.2268E-01 9.9697E-01 2.8134E-02 7.1809E-01 0.3787 0.7783 0.6921 3.9178E-02 9 6.99 8.00 6.7937E-02 8.2939E-01 8.9732E-01 2.5468E-02 6.3625E-01 0.3749 0.7671 0.6807 4.0028E-02 10 7.86 9.00 6.1769E-02 7.4287E-01 8.0464E-01 2.2952E-02 5.6260E-01 0.3716 0.7573 0.6707 4.0796E-02 11 8.74 10.00 5.5876E-02 6.6323E-01 7.1911E-01 2.0601E-02 4.9656E-01 0.3687 0.7487 0.6619 4.1487E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 515.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.01763 0.06844 0.06531 0.04716 0.10028 0.10199 0.08971 1.000 2.000 1.500 0.03224 0.07534 0.07255 0.05820 0.10413 0.10568 0.09489 2.000 3.000 2.500 0.04692 0.08236 0.07999 0.06791 0.10763 0.10903 0.09950 3.000 4.000 3.500 0.05844 0.08837 0.08630 0.07598 0.11079 0.11207 0.10363 4.000 5.000 4.500 0.06792 0.09365 0.09183 0.08293 0.11369 0.11486 0.10737 5.000 6.000 5.500 0.07602 0.09838 0.09676 0.08907 0.11634 0.11741 0.11078 6.000 7.000 6.500 0.08315 0.10268 0.10124 0.09457 0.11877 0.11975 0.11389 7.000 8.000 7.500 0.08949 0.10659 0.10531 0.09953 0.12100 0.12188 0.11673 8.000 9.000 8.500 0.09517 0.11016 0.10902 0.10402 0.12303 0.12383 0.11931 9.000 10.000 9.500 0.10027 0.11340 0.11239 0.10807 0.12487 0.12559 0.12164 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 515.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 6.453E-02 4.378E-01 4.105E-02 1.044E+00 5.993E-03 3.813E-03 1 0.00 0.00 1.110E-02 6.281E+00 7.144E-03 4.246E+00 2 0.87 1.00 1.015E-02 4.948E+00 7.220E-03 4.431E+00 3 1.75 2.00 9.227E-03 3.841E+00 7.287E-03 4.597E+00 4 2.62 3.00 8.353E-03 2.968E+00 7.346E-03 4.744E+00 5 3.50 4.00 7.531E-03 2.296E+00 7.399E-03 4.877E+00 6 4.37 5.00 6.764E-03 1.786E+00 7.446E-03 4.998E+00 7 5.24 6.00 6.055E-03 1.400E+00 7.487E-03 5.107E+00 8 6.12 7.00 5.403E-03 1.106E+00 7.524E-03 5.207E+00 9 6.99 8.00 4.808E-03 8.821E-01 7.556E-03 5.297E+00 10 7.86 9.00 4.267E-03 7.098E-01 7.584E-03 5.379E+00 11 8.74 10.00 3.778E-03 5.760E-01 7.609E-03 5.452E+00 Waveband 17 of 40 completed in 0.2 sec. * * * * * Output for wavelength band 18 (520.0 to 530.0 nm; nominal wavelength = 525.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 33.0 m at 525.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 520.0 nm to 530.0 nm: Ed(diffuse) = 4.169E-01 Ed(direct) = 1.188E+00 Ed(total) = 1.605E+00 Absorption Coefficients of Individual Components at 525.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0417 0.0331 0.0000 0.0054 0.0802 2 0.870 1.000 0.0417 0.0331 0.0000 0.0054 0.0802 3 1.740 2.000 0.0417 0.0331 0.0000 0.0054 0.0802 4 2.610 3.000 0.0417 0.0331 0.0000 0.0054 0.0802 5 3.479 4.000 0.0417 0.0331 0.0000 0.0054 0.0802 6 4.349 5.000 0.0417 0.0331 0.0000 0.0054 0.0802 7 5.219 6.000 0.0417 0.0331 0.0000 0.0054 0.0802 8 6.089 7.000 0.0417 0.0331 0.0000 0.0054 0.0802 9 6.959 8.000 0.0417 0.0331 0.0000 0.0054 0.0802 10 7.829 9.000 0.0417 0.0331 0.0000 0.0054 0.0802 11 8.699 10.000 0.0417 0.0331 0.0000 0.0054 0.0802 Scattering Coefficients of Individual Components at 525.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0023 0.2757 0.5116 0.0000 0.7897 2 0.870 1.000 0.0023 0.2757 0.5116 0.0000 0.7897 3 1.740 2.000 0.0023 0.2757 0.5116 0.0000 0.7897 4 2.610 3.000 0.0023 0.2757 0.5116 0.0000 0.7897 5 3.479 4.000 0.0023 0.2757 0.5116 0.0000 0.7897 6 4.349 5.000 0.0023 0.2757 0.5116 0.0000 0.7897 7 5.219 6.000 0.0023 0.2757 0.5116 0.0000 0.7897 8 6.089 7.000 0.0023 0.2757 0.5116 0.0000 0.7897 9 6.959 8.000 0.0023 0.2757 0.5116 0.0000 0.7897 10 7.829 9.000 0.0023 0.2757 0.5116 0.0000 0.7897 11 8.699 10.000 0.0023 0.2757 0.5116 0.0000 0.7897 Backscattering Coefficients of Individual Components at 525.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00117 0.00387 0.00090 0.00000 0.00594 2 0.870 1.000 0.00117 0.00387 0.00090 0.00000 0.00594 3 1.740 2.000 0.00117 0.00387 0.00090 0.00000 0.00594 4 2.610 3.000 0.00117 0.00387 0.00090 0.00000 0.00594 5 3.479 4.000 0.00117 0.00387 0.00090 0.00000 0.00594 6 4.349 5.000 0.00117 0.00387 0.00090 0.00000 0.00594 7 5.219 6.000 0.00117 0.00387 0.00090 0.00000 0.00594 8 6.089 7.000 0.00117 0.00387 0.00090 0.00000 0.00594 9 6.959 8.000 0.00117 0.00387 0.00090 0.00000 0.00594 10 7.829 9.000 0.00117 0.00387 0.00090 0.00000 0.00594 11 8.699 10.000 0.00117 0.00387 0.00090 0.00000 0.00594 Summary of Inherent Optical Properties at 525.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0802 0.7897 0.8699 0.9079 0.00594 0.00752 2 0.870 1.000 0.0802 0.7897 0.8699 0.9079 0.00594 0.00752 3 1.740 2.000 0.0802 0.7897 0.8699 0.9079 0.00594 0.00752 4 2.610 3.000 0.0802 0.7897 0.8699 0.9079 0.00594 0.00752 5 3.479 4.000 0.0802 0.7897 0.8699 0.9079 0.00594 0.00752 6 4.349 5.000 0.0802 0.7897 0.8699 0.9079 0.00594 0.00752 7 5.219 6.000 0.0802 0.7897 0.8699 0.9079 0.00594 0.00752 8 6.089 7.000 0.0802 0.7897 0.8699 0.9079 0.00594 0.00752 9 6.959 8.000 0.0802 0.7897 0.8699 0.9079 0.00594 0.00752 10 7.829 9.000 0.0802 0.7897 0.8699 0.9079 0.00594 0.00752 11 8.699 10.000 0.0802 0.7897 0.8699 0.9079 0.00594 0.00752 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.5860E-01 8 20.00 8.5467E-01 7 30.00 7.0974E-01 6 40.00 5.5246E-01 5 50.00 4.0672E-01 4 60.00 2.8640E-01 3 70.00 1.9563E-01 2 80.00 1.3219E-01 1 87.50 9.7227E-02 1 92.50 7.6976E-02 2 100.00 5.7094E-02 3 110.00 4.0126E-02 4 120.00 2.9212E-02 5 130.00 2.2331E-02 6 140.00 1.8024E-02 7 150.00 1.5358E-02 8 160.00 1.3767E-02 9 170.00 1.2923E-02 10 180.00 1.2632E-02 Asymptotic source-free water AOP values are MUu(inf) = 0.3485 MUd(inf) = 0.6845 MU(inf) = 0.5946 R(m,inf) = 0.0485 k(inf) = 0.1348 (1/m) absorp(check) = 0.0802 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 525.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.6575E-01 1.9837E+00 2.1494E+00 6.9490E-02 1.6054E+00 0.4193 0.8093 0.7146 4.3285E-02 1 0.00 0.00 1.1572E-01 1.7360E+00 1.8517E+00 5.0140E-02 1.5879E+00 0.4333 0.9147 0.8304 3.1576E-02 2 0.87 1.00 1.1406E-01 1.6279E+00 1.7419E+00 4.8026E-02 1.4426E+00 0.4211 0.8862 0.8006 3.3292E-02 3 1.74 2.00 1.1092E-01 1.5166E+00 1.6276E+00 4.5521E-02 1.3057E+00 0.4104 0.8609 0.7743 3.4864E-02 4 2.61 3.00 1.0635E-01 1.4034E+00 1.5097E+00 4.2738E-02 1.1778E+00 0.4019 0.8392 0.7518 3.6287E-02 5 3.48 4.00 1.0081E-01 1.2910E+00 1.3918E+00 3.9809E-02 1.0591E+00 0.3949 0.8204 0.7324 3.7586E-02 6 4.35 5.00 9.4671E-02 1.1814E+00 1.2760E+00 3.6825E-02 9.4975E-01 0.3890 0.8039 0.7154 3.8774E-02 7 5.22 6.00 8.8194E-02 1.0760E+00 1.1642E+00 3.3859E-02 8.4945E-01 0.3839 0.7894 0.7005 3.9859E-02 8 6.09 7.00 8.1579E-02 9.7594E-01 1.0575E+00 3.0961E-02 7.5793E-01 0.3795 0.7766 0.6874 4.0849E-02 9 6.96 8.00 7.4984E-02 8.8171E-01 9.5669E-01 2.8171E-02 6.7479E-01 0.3757 0.7653 0.6759 4.1748E-02 10 7.83 9.00 6.8532E-02 7.9376E-01 8.6229E-01 2.5519E-02 5.9957E-01 0.3724 0.7554 0.6657 4.2561E-02 11 8.70 10.00 6.2316E-02 7.1227E-01 7.7458E-01 2.3022E-02 5.3177E-01 0.3694 0.7466 0.6568 4.3293E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 525.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.01447 0.06432 0.06113 0.04306 0.09599 0.09776 0.08518 1.000 2.000 1.500 0.02789 0.07077 0.06791 0.05359 0.09969 0.10132 0.09023 2.000 3.000 2.500 0.04214 0.07761 0.07515 0.06307 0.10309 0.10457 0.09475 3.000 4.000 3.500 0.05346 0.08350 0.08136 0.07102 0.10618 0.10753 0.09882 4.000 5.000 4.500 0.06282 0.08870 0.08681 0.07789 0.10901 0.11024 0.10251 5.000 6.000 5.500 0.07087 0.09339 0.09170 0.08399 0.11161 0.11274 0.10589 6.000 7.000 6.500 0.07797 0.09765 0.09614 0.08947 0.11400 0.11503 0.10898 7.000 8.000 7.500 0.08430 0.10154 0.10020 0.09442 0.11619 0.11713 0.11180 8.000 9.000 8.500 0.08998 0.10509 0.10390 0.09890 0.11819 0.11904 0.11436 9.000 10.000 9.500 0.09508 0.10832 0.10726 0.10295 0.12001 0.12077 0.11669 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 525.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 6.633E-02 4.406E-01 4.132E-02 1.048E+00 6.361E-03 3.962E-03 1 0.00 0.00 1.178E-02 6.434E+00 7.417E-03 4.257E+00 2 0.87 1.00 1.082E-02 5.089E+00 7.497E-03 4.441E+00 3 1.74 2.00 9.882E-03 3.966E+00 7.568E-03 4.606E+00 4 2.61 3.00 8.989E-03 3.077E+00 7.632E-03 4.755E+00 5 3.48 4.00 8.143E-03 2.391E+00 7.688E-03 4.889E+00 6 4.35 5.00 7.349E-03 1.867E+00 7.738E-03 5.011E+00 7 5.22 6.00 6.611E-03 1.469E+00 7.783E-03 5.122E+00 8 6.09 7.00 5.928E-03 1.165E+00 7.822E-03 5.222E+00 9 6.96 8.00 5.301E-03 9.331E-01 7.856E-03 5.314E+00 10 7.83 9.00 4.728E-03 7.539E-01 7.886E-03 5.397E+00 11 8.70 10.00 4.208E-03 6.143E-01 7.913E-03 5.471E+00 Waveband 18 of 40 completed in 0.2 sec. * * * * * Output for wavelength band 19 (530.0 to 540.0 nm; nominal wavelength = 535.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 33.0 m at 535.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 530.0 nm to 540.0 nm: Ed(diffuse) = 4.155E-01 Ed(direct) = 1.206E+00 Ed(total) = 1.622E+00 Absorption Coefficients of Individual Components at 535.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0452 0.0289 0.0000 0.0047 0.0788 2 0.868 1.000 0.0452 0.0289 0.0000 0.0047 0.0788 3 1.737 2.000 0.0452 0.0289 0.0000 0.0047 0.0788 4 2.605 3.000 0.0452 0.0289 0.0000 0.0047 0.0788 5 3.473 4.000 0.0452 0.0289 0.0000 0.0047 0.0788 6 4.342 5.000 0.0452 0.0289 0.0000 0.0047 0.0788 7 5.210 6.000 0.0452 0.0289 0.0000 0.0047 0.0788 8 6.078 7.000 0.0452 0.0289 0.0000 0.0047 0.0788 9 6.946 8.000 0.0452 0.0289 0.0000 0.0047 0.0788 10 7.815 9.000 0.0452 0.0289 0.0000 0.0047 0.0788 11 8.683 10.000 0.0452 0.0289 0.0000 0.0047 0.0788 Scattering Coefficients of Individual Components at 535.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0022 0.2757 0.5116 0.0000 0.7895 2 0.868 1.000 0.0022 0.2757 0.5116 0.0000 0.7895 3 1.737 2.000 0.0022 0.2757 0.5116 0.0000 0.7895 4 2.605 3.000 0.0022 0.2757 0.5116 0.0000 0.7895 5 3.473 4.000 0.0022 0.2757 0.5116 0.0000 0.7895 6 4.342 5.000 0.0022 0.2757 0.5116 0.0000 0.7895 7 5.210 6.000 0.0022 0.2757 0.5116 0.0000 0.7895 8 6.078 7.000 0.0022 0.2757 0.5116 0.0000 0.7895 9 6.946 8.000 0.0022 0.2757 0.5116 0.0000 0.7895 10 7.815 9.000 0.0022 0.2757 0.5116 0.0000 0.7895 11 8.683 10.000 0.0022 0.2757 0.5116 0.0000 0.7895 Backscattering Coefficients of Individual Components at 535.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00108 0.00387 0.00090 0.00000 0.00585 2 0.868 1.000 0.00108 0.00387 0.00090 0.00000 0.00585 3 1.737 2.000 0.00108 0.00387 0.00090 0.00000 0.00585 4 2.605 3.000 0.00108 0.00387 0.00090 0.00000 0.00585 5 3.473 4.000 0.00108 0.00387 0.00090 0.00000 0.00585 6 4.342 5.000 0.00108 0.00387 0.00090 0.00000 0.00585 7 5.210 6.000 0.00108 0.00387 0.00090 0.00000 0.00585 8 6.078 7.000 0.00108 0.00387 0.00090 0.00000 0.00585 9 6.946 8.000 0.00108 0.00387 0.00090 0.00000 0.00585 10 7.815 9.000 0.00108 0.00387 0.00090 0.00000 0.00585 11 8.683 10.000 0.00108 0.00387 0.00090 0.00000 0.00585 Summary of Inherent Optical Properties at 535.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0788 0.7895 0.8683 0.9093 0.00585 0.00741 2 0.868 1.000 0.0788 0.7895 0.8683 0.9093 0.00585 0.00741 3 1.737 2.000 0.0788 0.7895 0.8683 0.9093 0.00585 0.00741 4 2.605 3.000 0.0788 0.7895 0.8683 0.9093 0.00585 0.00741 5 3.473 4.000 0.0788 0.7895 0.8683 0.9093 0.00585 0.00741 6 4.342 5.000 0.0788 0.7895 0.8683 0.9093 0.00585 0.00741 7 5.210 6.000 0.0788 0.7895 0.8683 0.9093 0.00585 0.00741 8 6.078 7.000 0.0788 0.7895 0.8683 0.9093 0.00585 0.00741 9 6.946 8.000 0.0788 0.7895 0.8683 0.9093 0.00585 0.00741 10 7.815 9.000 0.0788 0.7895 0.8683 0.9093 0.00585 0.00741 11 8.683 10.000 0.0788 0.7895 0.8683 0.9093 0.00585 0.00741 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.5897E-01 8 20.00 8.5587E-01 7 30.00 7.1190E-01 6 40.00 5.5532E-01 5 50.00 4.0984E-01 4 60.00 2.8938E-01 3 70.00 1.9820E-01 2 80.00 1.3424E-01 1 87.50 9.8888E-02 1 92.50 7.8358E-02 2 100.00 5.8165E-02 3 110.00 4.0895E-02 4 120.00 2.9760E-02 5 130.00 2.2725E-02 6 140.00 1.8314E-02 7 150.00 1.5580E-02 8 160.00 1.3947E-02 9 170.00 1.3079E-02 10 180.00 1.2781E-02 Asymptotic source-free water AOP values are MUu(inf) = 0.3482 MUd(inf) = 0.6833 MU(inf) = 0.5926 R(m,inf) = 0.0491 k(inf) = 0.1329 (1/m) absorp(check) = 0.0788 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 535.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.6658E-01 1.9994E+00 2.1660E+00 7.0167E-02 1.6220E+00 0.4212 0.8112 0.7165 4.3259E-02 1 0.00 0.00 1.1782E-01 1.7542E+00 1.8720E+00 5.1047E-02 1.6048E+00 0.4333 0.9148 0.8300 3.1810E-02 2 0.87 1.00 1.1633E-01 1.6475E+00 1.7638E+00 4.8993E-02 1.4603E+00 0.4211 0.8864 0.8001 3.3550E-02 3 1.74 2.00 1.1337E-01 1.5376E+00 1.6510E+00 4.6536E-02 1.3240E+00 0.4105 0.8611 0.7737 3.5148E-02 4 2.60 3.00 1.0894E-01 1.4255E+00 1.5344E+00 4.3787E-02 1.1964E+00 0.4020 0.8393 0.7512 3.6599E-02 5 3.47 4.00 1.0350E-01 1.3137E+00 1.4172E+00 4.0875E-02 1.0778E+00 0.3949 0.8204 0.7316 3.7925E-02 6 4.34 5.00 9.7417E-02 1.2045E+00 1.3020E+00 3.7896E-02 9.6822E-01 0.3890 0.8038 0.7146 3.9139E-02 7 5.21 6.00 9.0956E-02 1.0993E+00 1.1902E+00 3.4919E-02 8.6755E-01 0.3839 0.7892 0.6995 4.0250E-02 8 6.08 7.00 8.4322E-02 9.9898E-01 1.0833E+00 3.2000E-02 7.7550E-01 0.3795 0.7763 0.6863 4.1264E-02 9 6.95 8.00 7.7676E-02 9.0430E-01 9.8198E-01 2.9179E-02 6.9171E-01 0.3757 0.7649 0.6747 4.2184E-02 10 7.81 9.00 7.1148E-02 8.1570E-01 8.8685E-01 2.6488E-02 6.1575E-01 0.3723 0.7549 0.6644 4.3018E-02 11 8.68 10.00 6.4834E-02 7.3340E-01 7.9823E-01 2.3947E-02 5.4714E-01 0.3694 0.7460 0.6554 4.3768E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 535.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.01271 0.06274 0.05952 0.04107 0.09434 0.09613 0.08320 1.000 2.000 1.500 0.02579 0.06902 0.06611 0.05145 0.09799 0.09964 0.08822 2.000 3.000 2.500 0.03992 0.07576 0.07326 0.06088 0.10134 0.10285 0.09272 3.000 4.000 3.500 0.05120 0.08161 0.07942 0.06881 0.10440 0.10578 0.09678 4.000 5.000 4.500 0.06056 0.08678 0.08484 0.07569 0.10721 0.10847 0.10048 5.000 6.000 5.500 0.06863 0.09144 0.08971 0.08180 0.10979 0.11095 0.10386 6.000 7.000 6.500 0.07574 0.09569 0.09415 0.08730 0.11216 0.11322 0.10695 7.000 8.000 7.500 0.08209 0.09957 0.09820 0.09227 0.11434 0.11530 0.10978 8.000 9.000 8.500 0.08779 0.10312 0.10190 0.09677 0.11633 0.11720 0.11235 9.000 10.000 9.500 0.09292 0.10635 0.10527 0.10084 0.11814 0.11892 0.11468 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 535.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 6.723E-02 4.391E-01 4.145E-02 1.044E+00 6.458E-03 3.981E-03 1 0.00 0.00 1.196E-02 6.518E+00 7.450E-03 4.270E+00 2 0.87 1.00 1.100E-02 5.163E+00 7.534E-03 4.453E+00 3 1.74 2.00 1.007E-02 4.031E+00 7.608E-03 4.620E+00 4 2.60 3.00 9.181E-03 3.132E+00 7.674E-03 4.770E+00 5 3.47 4.00 8.334E-03 2.437E+00 7.732E-03 4.905E+00 6 4.34 5.00 7.537E-03 1.906E+00 7.784E-03 5.028E+00 7 5.21 6.00 6.794E-03 1.501E+00 7.831E-03 5.140E+00 8 6.08 7.00 6.104E-03 1.193E+00 7.872E-03 5.242E+00 9 6.95 8.00 5.470E-03 9.568E-01 7.908E-03 5.335E+00 10 7.81 9.00 4.889E-03 7.742E-01 7.939E-03 5.418E+00 11 8.68 10.00 4.359E-03 6.318E-01 7.967E-03 5.494E+00 Waveband 19 of 40 completed in 0.2 sec. * * * * * Output for wavelength band 20 (540.0 to 550.0 nm; nominal wavelength = 545.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 33.0 m at 545.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 540.0 nm to 550.0 nm: Ed(diffuse) = 4.045E-01 Ed(direct) = 1.195E+00 Ed(total) = 1.599E+00 Absorption Coefficients of Individual Components at 545.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0511 0.0256 0.0000 0.0041 0.0808 2 0.870 1.000 0.0511 0.0256 0.0000 0.0041 0.0808 3 1.740 2.000 0.0511 0.0256 0.0000 0.0041 0.0808 4 2.610 3.000 0.0511 0.0256 0.0000 0.0041 0.0808 5 3.480 4.000 0.0511 0.0256 0.0000 0.0041 0.0808 6 4.351 5.000 0.0511 0.0256 0.0000 0.0041 0.0808 7 5.221 6.000 0.0511 0.0256 0.0000 0.0041 0.0808 8 6.091 7.000 0.0511 0.0256 0.0000 0.0041 0.0808 9 6.961 8.000 0.0511 0.0256 0.0000 0.0041 0.0808 10 7.831 9.000 0.0511 0.0256 0.0000 0.0041 0.0808 11 8.701 10.000 0.0511 0.0256 0.0000 0.0041 0.0808 Scattering Coefficients of Individual Components at 545.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0020 0.2757 0.5116 0.0000 0.7894 2 0.870 1.000 0.0020 0.2757 0.5116 0.0000 0.7894 3 1.740 2.000 0.0020 0.2757 0.5116 0.0000 0.7894 4 2.610 3.000 0.0020 0.2757 0.5116 0.0000 0.7894 5 3.480 4.000 0.0020 0.2757 0.5116 0.0000 0.7894 6 4.351 5.000 0.0020 0.2757 0.5116 0.0000 0.7894 7 5.221 6.000 0.0020 0.2757 0.5116 0.0000 0.7894 8 6.091 7.000 0.0020 0.2757 0.5116 0.0000 0.7894 9 6.961 8.000 0.0020 0.2757 0.5116 0.0000 0.7894 10 7.831 9.000 0.0020 0.2757 0.5116 0.0000 0.7894 11 8.701 10.000 0.0020 0.2757 0.5116 0.0000 0.7894 Backscattering Coefficients of Individual Components at 545.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00100 0.00387 0.00090 0.00000 0.00576 2 0.870 1.000 0.00100 0.00387 0.00090 0.00000 0.00576 3 1.740 2.000 0.00100 0.00387 0.00090 0.00000 0.00576 4 2.610 3.000 0.00100 0.00387 0.00090 0.00000 0.00576 5 3.480 4.000 0.00100 0.00387 0.00090 0.00000 0.00576 6 4.351 5.000 0.00100 0.00387 0.00090 0.00000 0.00576 7 5.221 6.000 0.00100 0.00387 0.00090 0.00000 0.00576 8 6.091 7.000 0.00100 0.00387 0.00090 0.00000 0.00576 9 6.961 8.000 0.00100 0.00387 0.00090 0.00000 0.00576 10 7.831 9.000 0.00100 0.00387 0.00090 0.00000 0.00576 11 8.701 10.000 0.00100 0.00387 0.00090 0.00000 0.00576 Summary of Inherent Optical Properties at 545.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0808 0.7894 0.8701 0.9072 0.00576 0.00730 2 0.870 1.000 0.0808 0.7894 0.8701 0.9072 0.00576 0.00730 3 1.740 2.000 0.0808 0.7894 0.8701 0.9072 0.00576 0.00730 4 2.610 3.000 0.0808 0.7894 0.8701 0.9072 0.00576 0.00730 5 3.480 4.000 0.0808 0.7894 0.8701 0.9072 0.00576 0.00730 6 4.351 5.000 0.0808 0.7894 0.8701 0.9072 0.00576 0.00730 7 5.221 6.000 0.0808 0.7894 0.8701 0.9072 0.00576 0.00730 8 6.091 7.000 0.0808 0.7894 0.8701 0.9072 0.00576 0.00730 9 6.961 8.000 0.0808 0.7894 0.8701 0.9072 0.00576 0.00730 10 7.831 9.000 0.0808 0.7894 0.8701 0.9072 0.00576 0.00730 11 8.701 10.000 0.0808 0.7894 0.8701 0.9072 0.00576 0.00730 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.5843E-01 8 20.00 8.5410E-01 7 30.00 7.0870E-01 6 40.00 5.5104E-01 5 50.00 4.0510E-01 4 60.00 2.8477E-01 3 70.00 1.9412E-01 2 80.00 1.3086E-01 1 87.50 9.6050E-02 1 92.50 7.5913E-02 2 100.00 5.6163E-02 3 110.00 3.9334E-02 4 120.00 2.8527E-02 5 130.00 2.1725E-02 6 140.00 1.7474E-02 7 150.00 1.4845E-02 8 160.00 1.3279E-02 9 170.00 1.2447E-02 10 180.00 1.2161E-02 Asymptotic source-free water AOP values are MUu(inf) = 0.3468 MUd(inf) = 0.6853 MU(inf) = 0.5969 R(m,inf) = 0.0474 k(inf) = 0.1353 (1/m) absorp(check) = 0.0808 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 545.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.6141E-01 1.9672E+00 2.1286E+00 6.8096E-02 1.5994E+00 0.4219 0.8130 0.7194 4.2576E-02 1 0.00 0.00 1.1177E-01 1.7257E+00 1.8374E+00 4.8317E-02 1.5814E+00 0.4323 0.9164 0.8344 3.0552E-02 2 0.87 1.00 1.1034E-01 1.6177E+00 1.7280E+00 4.6332E-02 1.4363E+00 0.4199 0.8878 0.8043 3.2259E-02 3 1.74 2.00 1.0743E-01 1.5067E+00 1.6141E+00 4.3954E-02 1.2996E+00 0.4091 0.8625 0.7779 3.3822E-02 4 2.61 3.00 1.0310E-01 1.3938E+00 1.4969E+00 4.1298E-02 1.1719E+00 0.4006 0.8408 0.7553 3.5241E-02 5 3.48 4.00 9.7808E-02 1.2817E+00 1.3795E+00 3.8490E-02 1.0535E+00 0.3935 0.8219 0.7357 3.6537E-02 6 4.35 5.00 9.1912E-02 1.1726E+00 1.2645E+00 3.5624E-02 9.4434E-01 0.3876 0.8053 0.7186 3.7723E-02 7 5.22 6.00 8.5668E-02 1.0677E+00 1.1534E+00 3.2767E-02 8.4431E-01 0.3825 0.7908 0.7036 3.8809E-02 8 6.09 7.00 7.9274E-02 9.6810E-01 1.0474E+00 2.9972E-02 7.5307E-01 0.3781 0.7779 0.6904 3.9800E-02 9 6.96 8.00 7.2888E-02 8.7435E-01 9.4723E-01 2.7278E-02 6.7021E-01 0.3742 0.7665 0.6787 4.0700E-02 10 7.83 9.00 6.6630E-02 7.8686E-01 8.5349E-01 2.4712E-02 5.9527E-01 0.3709 0.7565 0.6685 4.1515E-02 11 8.70 10.00 6.0595E-02 7.0583E-01 7.6643E-01 2.2297E-02 5.2774E-01 0.3680 0.7477 0.6595 4.2249E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 545.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.01286 0.06460 0.06138 0.04195 0.09630 0.09807 0.08477 1.000 2.000 1.500 0.02670 0.07109 0.06820 0.05270 0.10002 0.10163 0.08988 2.000 3.000 2.500 0.04117 0.07791 0.07542 0.06233 0.10342 0.10489 0.09447 3.000 4.000 3.500 0.05267 0.08379 0.08162 0.07040 0.10652 0.10786 0.09860 4.000 5.000 4.500 0.06218 0.08900 0.08707 0.07739 0.10936 0.11059 0.10235 5.000 6.000 5.500 0.07035 0.09369 0.09197 0.08359 0.11197 0.11310 0.10578 6.000 7.000 6.500 0.07756 0.09796 0.09643 0.08916 0.11437 0.11540 0.10892 7.000 8.000 7.500 0.08399 0.10186 0.10050 0.09420 0.11657 0.11751 0.11179 8.000 9.000 8.500 0.08976 0.10542 0.10421 0.09876 0.11858 0.11943 0.11440 9.000 10.000 9.500 0.09495 0.10867 0.10759 0.10287 0.12040 0.12117 0.11677 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 545.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 6.618E-02 4.275E-01 4.138E-02 1.029E+00 6.090E-03 3.808E-03 1 0.00 0.00 1.128E-02 6.443E+00 7.130E-03 4.285E+00 2 0.87 1.00 1.036E-02 5.095E+00 7.212E-03 4.473E+00 3 1.74 2.00 9.468E-03 3.970E+00 7.286E-03 4.642E+00 4 2.61 3.00 8.615E-03 3.078E+00 7.351E-03 4.794E+00 5 3.48 4.00 7.806E-03 2.390E+00 7.410E-03 4.931E+00 6 4.35 5.00 7.047E-03 1.866E+00 7.462E-03 5.055E+00 7 5.22 6.00 6.339E-03 1.467E+00 7.508E-03 5.169E+00 8 6.09 7.00 5.685E-03 1.164E+00 7.549E-03 5.272E+00 9 6.96 8.00 5.084E-03 9.311E-01 7.585E-03 5.366E+00 10 7.83 9.00 4.534E-03 7.518E-01 7.617E-03 5.450E+00 11 8.70 10.00 4.034E-03 6.123E-01 7.645E-03 5.527E+00 Waveband 20 of 40 completed in 0.2 sec. * * * * * Output for wavelength band 21 (550.0 to 560.0 nm; nominal wavelength = 555.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 32.9 m at 555.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 550.0 nm to 560.0 nm: Ed(diffuse) = 3.970E-01 Ed(direct) = 1.191E+00 Ed(total) = 1.589E+00 Absorption Coefficients of Individual Components at 555.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0596 0.0219 0.0000 0.0035 0.0850 2 0.874 1.000 0.0596 0.0219 0.0000 0.0035 0.0850 3 1.748 2.000 0.0596 0.0219 0.0000 0.0035 0.0850 4 2.623 3.000 0.0596 0.0219 0.0000 0.0035 0.0850 5 3.497 4.000 0.0596 0.0219 0.0000 0.0035 0.0850 6 4.371 5.000 0.0596 0.0219 0.0000 0.0035 0.0850 7 5.245 6.000 0.0596 0.0219 0.0000 0.0035 0.0850 8 6.120 7.000 0.0596 0.0219 0.0000 0.0035 0.0850 9 6.994 8.000 0.0596 0.0219 0.0000 0.0035 0.0850 10 7.868 9.000 0.0596 0.0219 0.0000 0.0035 0.0850 11 8.742 10.000 0.0596 0.0219 0.0000 0.0035 0.0850 Scattering Coefficients of Individual Components at 555.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0018 0.2757 0.5116 0.0000 0.7892 2 0.874 1.000 0.0018 0.2757 0.5116 0.0000 0.7892 3 1.748 2.000 0.0018 0.2757 0.5116 0.0000 0.7892 4 2.623 3.000 0.0018 0.2757 0.5116 0.0000 0.7892 5 3.497 4.000 0.0018 0.2757 0.5116 0.0000 0.7892 6 4.371 5.000 0.0018 0.2757 0.5116 0.0000 0.7892 7 5.245 6.000 0.0018 0.2757 0.5116 0.0000 0.7892 8 6.120 7.000 0.0018 0.2757 0.5116 0.0000 0.7892 9 6.994 8.000 0.0018 0.2757 0.5116 0.0000 0.7892 10 7.868 9.000 0.0018 0.2757 0.5116 0.0000 0.7892 11 8.742 10.000 0.0018 0.2757 0.5116 0.0000 0.7892 Backscattering Coefficients of Individual Components at 555.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00092 0.00387 0.00090 0.00000 0.00569 2 0.874 1.000 0.00092 0.00387 0.00090 0.00000 0.00569 3 1.748 2.000 0.00092 0.00387 0.00090 0.00000 0.00569 4 2.623 3.000 0.00092 0.00387 0.00090 0.00000 0.00569 5 3.497 4.000 0.00092 0.00387 0.00090 0.00000 0.00569 6 4.371 5.000 0.00092 0.00387 0.00090 0.00000 0.00569 7 5.245 6.000 0.00092 0.00387 0.00090 0.00000 0.00569 8 6.120 7.000 0.00092 0.00387 0.00090 0.00000 0.00569 9 6.994 8.000 0.00092 0.00387 0.00090 0.00000 0.00569 10 7.868 9.000 0.00092 0.00387 0.00090 0.00000 0.00569 11 8.742 10.000 0.00092 0.00387 0.00090 0.00000 0.00569 Summary of Inherent Optical Properties at 555.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0850 0.7892 0.8742 0.9027 0.00569 0.00721 2 0.874 1.000 0.0850 0.7892 0.8742 0.9027 0.00569 0.00721 3 1.748 2.000 0.0850 0.7892 0.8742 0.9027 0.00569 0.00721 4 2.623 3.000 0.0850 0.7892 0.8742 0.9027 0.00569 0.00721 5 3.497 4.000 0.0850 0.7892 0.8742 0.9027 0.00569 0.00721 6 4.371 5.000 0.0850 0.7892 0.8742 0.9027 0.00569 0.00721 7 5.245 6.000 0.0850 0.7892 0.8742 0.9027 0.00569 0.00721 8 6.120 7.000 0.0850 0.7892 0.8742 0.9027 0.00569 0.00721 9 6.994 8.000 0.0850 0.7892 0.8742 0.9027 0.00569 0.00721 10 7.868 9.000 0.0850 0.7892 0.8742 0.9027 0.00569 0.00721 11 8.742 10.000 0.0850 0.7892 0.8742 0.9027 0.00569 0.00721 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.5731E-01 8 20.00 8.5039E-01 7 30.00 7.0204E-01 6 40.00 5.4219E-01 5 50.00 3.9538E-01 4 60.00 2.7544E-01 3 70.00 1.8598E-01 2 80.00 1.2419E-01 1 87.50 9.0537E-02 1 92.50 7.1216E-02 2 100.00 5.2376E-02 3 110.00 3.6441E-02 4 120.00 2.6294E-02 5 130.00 1.9953E-02 6 140.00 1.6014E-02 7 150.00 1.3591E-02 8 160.00 1.2153E-02 9 170.00 1.1391E-02 10 180.00 1.1129E-02 Asymptotic source-free water AOP values are MUu(inf) = 0.3447 MUd(inf) = 0.6893 MU(inf) = 0.6050 R(m,inf) = 0.0444 k(inf) = 0.1405 (1/m) absorp(check) = 0.0850 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 555.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.5644E-01 1.9499E+00 2.1063E+00 6.5982E-02 1.5885E+00 0.4218 0.8147 0.7228 4.1537E-02 1 0.00 0.00 1.0367E-01 1.7076E+00 1.8112E+00 4.4658E-02 1.5690E+00 0.4308 0.9189 0.8416 2.8462E-02 2 0.87 1.00 1.0219E-01 1.5940E+00 1.6962E+00 4.2701E-02 1.4187E+00 0.4179 0.8900 0.8112 3.0099E-02 3 1.75 2.00 9.9202E-02 1.4776E+00 1.5768E+00 4.0365E-02 1.2778E+00 0.4069 0.8648 0.7848 3.1590E-02 4 2.62 3.00 9.4854E-02 1.3603E+00 1.4551E+00 3.7778E-02 1.1469E+00 0.3983 0.8431 0.7622 3.2939E-02 5 3.50 4.00 8.9628E-02 1.2448E+00 1.3344E+00 3.5064E-02 1.0261E+00 0.3912 0.8243 0.7427 3.4171E-02 6 4.37 5.00 8.3867E-02 1.1331E+00 1.2169E+00 3.2312E-02 9.1540E-01 0.3853 0.8079 0.7257 3.5298E-02 7 5.25 6.00 7.7824E-02 1.0265E+00 1.1043E+00 2.9588E-02 8.1445E-01 0.3802 0.7934 0.7107 3.6329E-02 8 6.12 7.00 7.1687E-02 9.2596E-01 9.9765E-01 2.6940E-02 7.2286E-01 0.3758 0.7807 0.6976 3.7269E-02 9 6.99 8.00 6.5604E-02 8.3198E-01 8.9758E-01 2.4404E-02 6.4012E-01 0.3720 0.7694 0.6860 3.8124E-02 10 7.87 9.00 5.9686E-02 7.4485E-01 8.0454E-01 2.2004E-02 5.6570E-01 0.3687 0.7595 0.6758 3.8897E-02 11 8.74 10.00 5.4017E-02 6.6468E-01 7.1869E-01 1.9757E-02 4.9900E-01 0.3658 0.7507 0.6668 3.9594E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 555.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.01435 0.06884 0.06564 0.04480 0.10073 0.10242 0.08872 1.000 2.000 1.500 0.02969 0.07578 0.07294 0.05625 0.10458 0.10612 0.09403 2.000 3.000 2.500 0.04482 0.08276 0.08033 0.06625 0.10809 0.10948 0.09875 3.000 4.000 3.500 0.05668 0.08874 0.08662 0.07456 0.11127 0.11254 0.10299 4.000 5.000 4.500 0.06643 0.09402 0.09214 0.08173 0.11418 0.11535 0.10684 5.000 6.000 5.500 0.07479 0.09877 0.09710 0.08806 0.11685 0.11792 0.11036 6.000 7.000 6.500 0.08213 0.10308 0.10159 0.09375 0.11930 0.12028 0.11357 7.000 8.000 7.500 0.08867 0.10702 0.10569 0.09888 0.12155 0.12244 0.11650 8.000 9.000 8.500 0.09454 0.11062 0.10943 0.10352 0.12360 0.12440 0.11917 9.000 10.000 9.500 0.09980 0.11389 0.11284 0.10770 0.12546 0.12618 0.12158 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 555.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 6.543E-02 4.196E-01 4.119E-02 1.008E+00 5.606E-03 3.529E-03 1 0.00 0.00 1.038E-02 6.413E+00 6.615E-03 4.303E+00 2 0.87 1.00 9.498E-03 5.051E+00 6.695E-03 4.496E+00 3 1.75 2.00 8.645E-03 3.919E+00 6.766E-03 4.669E+00 4 2.62 3.00 7.833E-03 3.026E+00 6.829E-03 4.823E+00 5 3.50 4.00 7.066E-03 2.340E+00 6.886E-03 4.962E+00 6 4.37 5.00 6.350E-03 1.818E+00 6.937E-03 5.088E+00 7 5.25 6.00 5.686E-03 1.424E+00 6.982E-03 5.203E+00 8 6.12 7.00 5.076E-03 1.124E+00 7.022E-03 5.307E+00 9 6.99 8.00 4.518E-03 8.954E-01 7.058E-03 5.402E+00 10 7.87 9.00 4.010E-03 7.198E-01 7.089E-03 5.487E+00 11 8.74 10.00 3.551E-03 5.835E-01 7.117E-03 5.564E+00 Waveband 21 of 40 completed in 0.2 sec. * * * * * Output for wavelength band 22 (560.0 to 570.0 nm; nominal wavelength = 565.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 32.9 m at 565.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 560.0 nm to 570.0 nm: Ed(diffuse) = 3.892E-01 Ed(direct) = 1.186E+00 Ed(total) = 1.575E+00 Absorption Coefficients of Individual Components at 565.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0642 0.0189 0.0000 0.0031 0.0862 2 0.875 1.000 0.0642 0.0189 0.0000 0.0031 0.0862 3 1.750 2.000 0.0642 0.0189 0.0000 0.0031 0.0862 4 2.626 3.000 0.0642 0.0189 0.0000 0.0031 0.0862 5 3.501 4.000 0.0642 0.0189 0.0000 0.0031 0.0862 6 4.376 5.000 0.0642 0.0189 0.0000 0.0031 0.0862 7 5.251 6.000 0.0642 0.0189 0.0000 0.0031 0.0862 8 6.127 7.000 0.0642 0.0189 0.0000 0.0031 0.0862 9 7.002 8.000 0.0642 0.0189 0.0000 0.0031 0.0862 10 7.877 9.000 0.0642 0.0189 0.0000 0.0031 0.0862 11 8.752 10.000 0.0642 0.0189 0.0000 0.0031 0.0862 Scattering Coefficients of Individual Components at 565.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0017 0.2757 0.5116 0.0000 0.7891 2 0.875 1.000 0.0017 0.2757 0.5116 0.0000 0.7891 3 1.750 2.000 0.0017 0.2757 0.5116 0.0000 0.7891 4 2.626 3.000 0.0017 0.2757 0.5116 0.0000 0.7891 5 3.501 4.000 0.0017 0.2757 0.5116 0.0000 0.7891 6 4.376 5.000 0.0017 0.2757 0.5116 0.0000 0.7891 7 5.251 6.000 0.0017 0.2757 0.5116 0.0000 0.7891 8 6.127 7.000 0.0017 0.2757 0.5116 0.0000 0.7891 9 7.002 8.000 0.0017 0.2757 0.5116 0.0000 0.7891 10 7.877 9.000 0.0017 0.2757 0.5116 0.0000 0.7891 11 8.752 10.000 0.0017 0.2757 0.5116 0.0000 0.7891 Backscattering Coefficients of Individual Components at 565.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00085 0.00387 0.00090 0.00000 0.00562 2 0.875 1.000 0.00085 0.00387 0.00090 0.00000 0.00562 3 1.750 2.000 0.00085 0.00387 0.00090 0.00000 0.00562 4 2.626 3.000 0.00085 0.00387 0.00090 0.00000 0.00562 5 3.501 4.000 0.00085 0.00387 0.00090 0.00000 0.00562 6 4.376 5.000 0.00085 0.00387 0.00090 0.00000 0.00562 7 5.251 6.000 0.00085 0.00387 0.00090 0.00000 0.00562 8 6.127 7.000 0.00085 0.00387 0.00090 0.00000 0.00562 9 7.002 8.000 0.00085 0.00387 0.00090 0.00000 0.00562 10 7.877 9.000 0.00085 0.00387 0.00090 0.00000 0.00562 11 8.752 10.000 0.00085 0.00387 0.00090 0.00000 0.00562 Summary of Inherent Optical Properties at 565.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0862 0.7891 0.8752 0.9015 0.00562 0.00712 2 0.875 1.000 0.0862 0.7891 0.8752 0.9015 0.00562 0.00712 3 1.750 2.000 0.0862 0.7891 0.8752 0.9015 0.00562 0.00712 4 2.626 3.000 0.0862 0.7891 0.8752 0.9015 0.00562 0.00712 5 3.501 4.000 0.0862 0.7891 0.8752 0.9015 0.00562 0.00712 6 4.376 5.000 0.0862 0.7891 0.8752 0.9015 0.00562 0.00712 7 5.251 6.000 0.0862 0.7891 0.8752 0.9015 0.00562 0.00712 8 6.127 7.000 0.0862 0.7891 0.8752 0.9015 0.00562 0.00712 9 7.002 8.000 0.0862 0.7891 0.8752 0.9015 0.00562 0.00712 10 7.877 9.000 0.0862 0.7891 0.8752 0.9015 0.00562 0.00712 11 8.752 10.000 0.0862 0.7891 0.8752 0.9015 0.00562 0.00712 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.5701E-01 8 20.00 8.4939E-01 7 30.00 7.0025E-01 6 40.00 5.3980E-01 5 50.00 3.9276E-01 4 60.00 2.7292E-01 3 70.00 1.8377E-01 2 80.00 1.2238E-01 1 87.50 8.9021E-02 1 92.50 6.9913E-02 2 100.00 5.1311E-02 3 110.00 3.5611E-02 4 120.00 2.5635E-02 5 130.00 1.9415E-02 6 140.00 1.5558E-02 7 150.00 1.3189E-02 8 160.00 1.1784E-02 9 170.00 1.1041E-02 10 180.00 1.0785E-02 Asymptotic source-free water AOP values are MUu(inf) = 0.3437 MUd(inf) = 0.6904 MU(inf) = 0.6074 R(m,inf) = 0.0434 k(inf) = 0.1419 (1/m) absorp(check) = 0.0862 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 565.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.5315E-01 1.9294E+00 2.0826E+00 6.4731E-02 1.5749E+00 0.4227 0.8162 0.7251 4.1103E-02 1 0.00 0.00 1.0020E-01 1.6904E+00 1.7906E+00 4.3098E-02 1.5551E+00 0.4301 0.9199 0.8444 2.7715E-02 2 0.88 1.00 9.8798E-02 1.5763E+00 1.6751E+00 4.1199E-02 1.4045E+00 0.4170 0.8910 0.8139 2.9334E-02 3 1.75 2.00 9.5882E-02 1.4595E+00 1.5554E+00 3.8926E-02 1.2636E+00 0.4060 0.8657 0.7873 3.0807E-02 4 2.63 3.00 9.1634E-02 1.3420E+00 1.4336E+00 3.6408E-02 1.1328E+00 0.3973 0.8441 0.7648 3.2140E-02 5 3.50 4.00 8.6529E-02 1.2265E+00 1.3131E+00 3.3768E-02 1.0123E+00 0.3902 0.8253 0.7452 3.3357E-02 6 4.38 5.00 8.0908E-02 1.1151E+00 1.1960E+00 3.1093E-02 9.0199E-01 0.3843 0.8089 0.7282 3.4472E-02 7 5.25 6.00 7.5016E-02 1.0090E+00 1.0840E+00 2.8448E-02 8.0153E-01 0.3792 0.7944 0.7132 3.5491E-02 8 6.13 7.00 6.9040E-02 9.0898E-01 9.7802E-01 2.5878E-02 7.1051E-01 0.3748 0.7817 0.7000 3.6422E-02 9 7.00 8.00 6.3122E-02 8.1568E-01 8.7880E-01 2.3419E-02 6.2840E-01 0.3710 0.7704 0.6884 3.7268E-02 10 7.88 9.00 5.7371E-02 7.2932E-01 7.8669E-01 2.1095E-02 5.5464E-01 0.3677 0.7605 0.6782 3.8034E-02 11 8.75 10.00 5.1868E-02 6.4997E-01 7.0184E-01 1.8921E-02 4.8862E-01 0.3648 0.7518 0.6692 3.8724E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 565.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.01411 0.06990 0.06670 0.04506 0.10184 0.10351 0.08945 1.000 2.000 1.500 0.02997 0.07695 0.07411 0.05674 0.10573 0.10724 0.09483 2.000 3.000 2.500 0.04532 0.08396 0.08153 0.06688 0.10925 0.11063 0.09960 3.000 4.000 3.500 0.05732 0.08996 0.08784 0.07529 0.11246 0.11371 0.10388 4.000 5.000 4.500 0.06717 0.09526 0.09338 0.08253 0.11539 0.11654 0.10777 5.000 6.000 5.500 0.07561 0.10002 0.09835 0.08892 0.11808 0.11913 0.11132 6.000 7.000 6.500 0.08302 0.10435 0.10286 0.09466 0.12054 0.12151 0.11456 7.000 8.000 7.500 0.08962 0.10830 0.10697 0.09984 0.12280 0.12368 0.11752 8.000 9.000 8.500 0.09553 0.11191 0.11072 0.10452 0.12486 0.12566 0.12021 9.000 10.000 9.500 0.10084 0.11518 0.11413 0.10874 0.12673 0.12745 0.12265 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 565.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 6.484E-02 4.113E-01 4.117E-02 9.983E-01 5.393E-03 3.425E-03 1 0.00 0.00 9.986E-03 6.372E+00 6.421E-03 4.316E+00 2 0.88 1.00 9.131E-03 5.013E+00 6.501E-03 4.512E+00 3 1.75 2.00 8.305E-03 3.885E+00 6.573E-03 4.687E+00 4 2.63 3.00 7.518E-03 2.997E+00 6.636E-03 4.843E+00 5 3.50 4.00 6.776E-03 2.315E+00 6.694E-03 4.984E+00 6 4.38 5.00 6.084E-03 1.797E+00 6.745E-03 5.111E+00 7 5.25 6.00 5.443E-03 1.405E+00 6.790E-03 5.227E+00 8 6.13 7.00 4.854E-03 1.108E+00 6.831E-03 5.332E+00 9 7.00 8.00 4.315E-03 8.816E-01 6.867E-03 5.427E+00 10 7.88 9.00 3.827E-03 7.078E-01 6.899E-03 5.513E+00 11 8.75 10.00 3.385E-03 5.731E-01 6.928E-03 5.590E+00 Waveband 22 of 40 completed in 0.2 sec. * * * * * Output for wavelength band 23 (570.0 to 580.0 nm; nominal wavelength = 575.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 32.6 m at 575.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 570.0 nm to 580.0 nm: Ed(diffuse) = 3.855E-01 Ed(direct) = 1.191E+00 Ed(total) = 1.576E+00 Absorption Coefficients of Individual Components at 575.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0772 0.0176 0.0000 0.0027 0.0975 2 0.886 1.000 0.0772 0.0176 0.0000 0.0027 0.0975 3 1.773 2.000 0.0772 0.0176 0.0000 0.0027 0.0975 4 2.659 3.000 0.0772 0.0176 0.0000 0.0027 0.0975 5 3.546 4.000 0.0772 0.0176 0.0000 0.0027 0.0975 6 4.432 5.000 0.0772 0.0176 0.0000 0.0027 0.0975 7 5.319 6.000 0.0772 0.0176 0.0000 0.0027 0.0975 8 6.205 7.000 0.0772 0.0176 0.0000 0.0027 0.0975 9 7.092 8.000 0.0772 0.0176 0.0000 0.0027 0.0975 10 7.978 9.000 0.0772 0.0176 0.0000 0.0027 0.0975 11 8.864 10.000 0.0772 0.0176 0.0000 0.0027 0.0975 Scattering Coefficients of Individual Components at 575.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0016 0.2757 0.5116 0.0000 0.7889 2 0.886 1.000 0.0016 0.2757 0.5116 0.0000 0.7889 3 1.773 2.000 0.0016 0.2757 0.5116 0.0000 0.7889 4 2.659 3.000 0.0016 0.2757 0.5116 0.0000 0.7889 5 3.546 4.000 0.0016 0.2757 0.5116 0.0000 0.7889 6 4.432 5.000 0.0016 0.2757 0.5116 0.0000 0.7889 7 5.319 6.000 0.0016 0.2757 0.5116 0.0000 0.7889 8 6.205 7.000 0.0016 0.2757 0.5116 0.0000 0.7889 9 7.092 8.000 0.0016 0.2757 0.5116 0.0000 0.7889 10 7.978 9.000 0.0016 0.2757 0.5116 0.0000 0.7889 11 8.864 10.000 0.0016 0.2757 0.5116 0.0000 0.7889 Backscattering Coefficients of Individual Components at 575.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00079 0.00387 0.00090 0.00000 0.00556 2 0.886 1.000 0.00079 0.00387 0.00090 0.00000 0.00556 3 1.773 2.000 0.00079 0.00387 0.00090 0.00000 0.00556 4 2.659 3.000 0.00079 0.00387 0.00090 0.00000 0.00556 5 3.546 4.000 0.00079 0.00387 0.00090 0.00000 0.00556 6 4.432 5.000 0.00079 0.00387 0.00090 0.00000 0.00556 7 5.319 6.000 0.00079 0.00387 0.00090 0.00000 0.00556 8 6.205 7.000 0.00079 0.00387 0.00090 0.00000 0.00556 9 7.092 8.000 0.00079 0.00387 0.00090 0.00000 0.00556 10 7.978 9.000 0.00079 0.00387 0.00090 0.00000 0.00556 11 8.864 10.000 0.00079 0.00387 0.00090 0.00000 0.00556 Summary of Inherent Optical Properties at 575.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0975 0.7889 0.8864 0.8900 0.00556 0.00705 2 0.886 1.000 0.0975 0.7889 0.8864 0.8900 0.00556 0.00705 3 1.773 2.000 0.0975 0.7889 0.8864 0.8900 0.00556 0.00705 4 2.659 3.000 0.0975 0.7889 0.8864 0.8900 0.00556 0.00705 5 3.546 4.000 0.0975 0.7889 0.8864 0.8900 0.00556 0.00705 6 4.432 5.000 0.0975 0.7889 0.8864 0.8900 0.00556 0.00705 7 5.319 6.000 0.0975 0.7889 0.8864 0.8900 0.00556 0.00705 8 6.205 7.000 0.0975 0.7889 0.8864 0.8900 0.00556 0.00705 9 7.092 8.000 0.0975 0.7889 0.8864 0.8900 0.00556 0.00705 10 7.978 9.000 0.0975 0.7889 0.8864 0.8900 0.00556 0.00705 11 8.864 10.000 0.0975 0.7889 0.8864 0.8900 0.00556 0.00705 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.5416E-01 8 20.00 8.4006E-01 7 30.00 6.8370E-01 6 40.00 5.1815E-01 5 50.00 3.6945E-01 4 60.00 2.5105E-01 3 70.00 1.6516E-01 2 80.00 1.0753E-01 1 87.50 7.6984E-02 1 92.50 5.9820E-02 2 100.00 4.3339E-02 3 110.00 2.9672E-02 4 120.00 2.1158E-02 5 130.00 1.5938E-02 6 140.00 1.2747E-02 7 150.00 1.0809E-02 8 160.00 9.6688E-03 9 170.00 9.0695E-03 10 180.00 8.8640E-03 Asymptotic source-free water AOP values are MUu(inf) = 0.3399 MUd(inf) = 0.7000 MU(inf) = 0.6258 R(m,inf) = 0.0373 k(inf) = 0.1558 (1/m) absorp(check) = 0.0975 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 575.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.4708E-01 1.9277E+00 2.0748E+00 6.1900E-02 1.5762E+00 0.4209 0.8177 0.7299 3.9272E-02 1 0.00 0.00 8.6416E-02 1.6802E+00 1.7666E+00 3.6896E-02 1.5530E+00 0.4270 0.9243 0.8582 2.3757E-02 2 0.89 1.00 8.4679E-02 1.5486E+00 1.6333E+00 3.4946E-02 1.3860E+00 0.4127 0.8950 0.8272 2.5214E-02 3 1.77 2.00 8.1372E-02 1.4158E+00 1.4971E+00 3.2660E-02 1.2316E+00 0.4014 0.8699 0.8008 2.6518E-02 4 2.66 3.00 7.6892E-02 1.2847E+00 1.3616E+00 3.0192E-02 1.0903E+00 0.3926 0.8486 0.7786 2.7691E-02 5 3.55 4.00 7.1739E-02 1.1586E+00 1.2303E+00 2.7663E-02 9.6191E-01 0.3856 0.8303 0.7594 2.8758E-02 6 4.43 5.00 6.6244E-02 1.0391E+00 1.1053E+00 2.5154E-02 8.4601E-01 0.3797 0.8142 0.7426 2.9733E-02 7 5.32 6.00 6.0637E-02 9.2737E-01 9.8800E-01 2.2722E-02 7.4197E-01 0.3747 0.8001 0.7280 3.0624E-02 8 6.21 7.00 5.5081E-02 8.2400E-01 8.7908E-01 2.0403E-02 6.4903E-01 0.3704 0.7877 0.7151 3.1436E-02 9 7.09 8.00 4.9697E-02 7.2921E-01 7.7890E-01 1.8224E-02 5.6639E-01 0.3667 0.7767 0.7038 3.2175E-02 10 7.98 9.00 4.4568E-02 6.4296E-01 6.8752E-01 1.6199E-02 4.9321E-01 0.3635 0.7671 0.6938 3.2844E-02 11 8.86 10.00 3.9753E-02 5.6503E-01 6.0478E-01 1.4337E-02 4.2865E-01 0.3607 0.7586 0.6851 3.3447E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 575.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.02031 0.08156 0.07848 0.05429 0.11382 0.11532 0.10082 1.000 2.000 1.500 0.03983 0.08968 0.08703 0.06765 0.11807 0.11941 0.10663 2.000 3.000 2.500 0.05662 0.09711 0.09486 0.07859 0.12187 0.12307 0.11170 3.000 4.000 3.500 0.06937 0.10337 0.10142 0.08749 0.12528 0.12638 0.11621 4.000 5.000 4.500 0.07969 0.10885 0.10712 0.09506 0.12839 0.12939 0.12028 5.000 6.000 5.500 0.08845 0.11375 0.11221 0.10170 0.13123 0.13215 0.12398 6.000 7.000 6.500 0.09609 0.11818 0.11681 0.10763 0.13383 0.13466 0.12735 7.000 8.000 7.500 0.10287 0.12221 0.12099 0.11297 0.13619 0.13696 0.13042 8.000 9.000 8.500 0.10892 0.12588 0.12479 0.11777 0.13835 0.13904 0.13321 9.000 10.000 9.500 0.11434 0.12920 0.12823 0.12209 0.14029 0.14092 0.13572 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 575.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 6.422E-02 4.073E-01 4.075E-02 9.638E-01 4.596E-03 2.916E-03 1 0.00 0.00 8.511E-03 6.389E+00 5.480E-03 4.335E+00 2 0.89 1.00 7.694E-03 4.971E+00 5.552E-03 4.542E+00 3 1.77 2.00 6.916E-03 3.809E+00 5.616E-03 4.722E+00 4 2.66 3.00 6.185E-03 2.905E+00 5.673E-03 4.881E+00 5 3.55 4.00 5.507E-03 2.218E+00 5.725E-03 5.024E+00 6 4.43 5.00 4.883E-03 1.702E+00 5.771E-03 5.152E+00 7 5.32 6.00 4.313E-03 1.315E+00 5.813E-03 5.268E+00 8 6.21 7.00 3.797E-03 1.025E+00 5.851E-03 5.373E+00 9 7.09 8.00 3.333E-03 8.061E-01 5.885E-03 5.467E+00 10 7.98 9.00 2.917E-03 6.394E-01 5.915E-03 5.552E+00 11 8.86 10.00 2.547E-03 5.115E-01 5.942E-03 5.629E+00 Waveband 23 of 40 completed in 0.2 sec. * * * * * Output for wavelength band 24 (580.0 to 590.0 nm; nominal wavelength = 585.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 31.8 m at 585.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 580.0 nm to 590.0 nm: Ed(diffuse) = 3.726E-01 Ed(direct) = 1.166E+00 Ed(total) = 1.539E+00 Absorption Coefficients of Individual Components at 585.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.1100 0.0176 0.0000 0.0023 0.1299 2 0.919 1.000 0.1100 0.0176 0.0000 0.0023 0.1299 3 1.838 2.000 0.1100 0.0176 0.0000 0.0023 0.1299 4 2.756 3.000 0.1100 0.0176 0.0000 0.0023 0.1299 5 3.675 4.000 0.1100 0.0176 0.0000 0.0023 0.1299 6 4.594 5.000 0.1100 0.0176 0.0000 0.0023 0.1299 7 5.513 6.000 0.1100 0.0176 0.0000 0.0023 0.1299 8 6.431 7.000 0.1100 0.0176 0.0000 0.0023 0.1299 9 7.350 8.000 0.1100 0.0176 0.0000 0.0023 0.1299 10 8.269 9.000 0.1100 0.0176 0.0000 0.0023 0.1299 11 9.188 10.000 0.1100 0.0176 0.0000 0.0023 0.1299 Scattering Coefficients of Individual Components at 585.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0015 0.2757 0.5116 0.0000 0.7888 2 0.919 1.000 0.0015 0.2757 0.5116 0.0000 0.7888 3 1.838 2.000 0.0015 0.2757 0.5116 0.0000 0.7888 4 2.756 3.000 0.0015 0.2757 0.5116 0.0000 0.7888 5 3.675 4.000 0.0015 0.2757 0.5116 0.0000 0.7888 6 4.594 5.000 0.0015 0.2757 0.5116 0.0000 0.7888 7 5.513 6.000 0.0015 0.2757 0.5116 0.0000 0.7888 8 6.431 7.000 0.0015 0.2757 0.5116 0.0000 0.7888 9 7.350 8.000 0.0015 0.2757 0.5116 0.0000 0.7888 10 8.269 9.000 0.0015 0.2757 0.5116 0.0000 0.7888 11 9.188 10.000 0.0015 0.2757 0.5116 0.0000 0.7888 Backscattering Coefficients of Individual Components at 585.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00073 0.00387 0.00090 0.00000 0.00550 2 0.919 1.000 0.00073 0.00387 0.00090 0.00000 0.00550 3 1.838 2.000 0.00073 0.00387 0.00090 0.00000 0.00550 4 2.756 3.000 0.00073 0.00387 0.00090 0.00000 0.00550 5 3.675 4.000 0.00073 0.00387 0.00090 0.00000 0.00550 6 4.594 5.000 0.00073 0.00387 0.00090 0.00000 0.00550 7 5.513 6.000 0.00073 0.00387 0.00090 0.00000 0.00550 8 6.431 7.000 0.00073 0.00387 0.00090 0.00000 0.00550 9 7.350 8.000 0.00073 0.00387 0.00090 0.00000 0.00550 10 8.269 9.000 0.00073 0.00387 0.00090 0.00000 0.00550 11 9.188 10.000 0.00073 0.00387 0.00090 0.00000 0.00550 Summary of Inherent Optical Properties at 585.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.1299 0.7888 0.9188 0.8586 0.00550 0.00698 2 0.919 1.000 0.1299 0.7888 0.9188 0.8586 0.00550 0.00698 3 1.838 2.000 0.1299 0.7888 0.9188 0.8586 0.00550 0.00698 4 2.756 3.000 0.1299 0.7888 0.9188 0.8586 0.00550 0.00698 5 3.675 4.000 0.1299 0.7888 0.9188 0.8586 0.00550 0.00698 6 4.594 5.000 0.1299 0.7888 0.9188 0.8586 0.00550 0.00698 7 5.513 6.000 0.1299 0.7888 0.9188 0.8586 0.00550 0.00698 8 6.431 7.000 0.1299 0.7888 0.9188 0.8586 0.00550 0.00698 9 7.350 8.000 0.1299 0.7888 0.9188 0.8586 0.00550 0.00698 10 8.269 9.000 0.1299 0.7888 0.9188 0.8586 0.00550 0.00698 11 9.188 10.000 0.1299 0.7888 0.9188 0.8586 0.00550 0.00698 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.4669E-01 8 20.00 8.1600E-01 7 30.00 6.4209E-01 6 40.00 4.6558E-01 5 50.00 3.1513E-01 4 60.00 2.0234E-01 3 70.00 1.2564E-01 2 80.00 7.7432E-02 1 87.50 5.3400E-02 1 92.50 4.0526E-02 2 100.00 2.8559E-02 3 110.00 1.9029E-02 4 120.00 1.3350E-02 5 130.00 9.9975E-03 6 140.00 8.0096E-03 7 150.00 6.8309E-03 8 160.00 6.1497E-03 9 170.00 5.7958E-03 10 180.00 5.6751E-03 Asymptotic source-free water AOP values are MUu(inf) = 0.3336 MUd(inf) = 0.7231 MU(inf) = 0.6666 R(m,inf) = 0.0260 k(inf) = 0.1949 (1/m) absorp(check) = 0.1299 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 585.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.3393E-01 1.8786E+00 2.0126E+00 5.5756E-02 1.5386E+00 0.4163 0.8190 0.7368 3.6238E-02 1 0.00 0.00 6.0619E-02 1.6204E+00 1.6810E+00 2.5498E-02 1.5101E+00 0.4206 0.9320 0.8832 1.6885E-02 2 0.92 1.00 5.8025E-02 1.4431E+00 1.5011E+00 2.3439E-02 1.3019E+00 0.4039 0.9022 0.8517 1.8003E-02 3 1.84 2.00 5.3976E-02 1.2717E+00 1.3256E+00 2.1175E-02 1.1166E+00 0.3923 0.8781 0.8263 1.8964E-02 4 2.76 3.00 4.9229E-02 1.1113E+00 1.1605E+00 1.8890E-02 9.5337E-01 0.3837 0.8579 0.8052 1.9814E-02 5 3.68 4.00 4.4270E-02 9.6447E-01 1.0087E+00 1.6688E-02 8.1080E-01 0.3770 0.8407 0.7872 2.0582E-02 6 4.59 5.00 3.9373E-02 8.3215E-01 8.7152E-01 1.4623E-02 6.8711E-01 0.3714 0.8257 0.7716 2.1282E-02 7 5.51 6.00 3.4697E-02 7.1426E-01 7.4896E-01 1.2725E-02 5.8043E-01 0.3667 0.8126 0.7580 2.1923E-02 8 6.43 7.00 3.0334E-02 6.1022E-01 6.4055E-01 1.1004E-02 4.8888E-01 0.3628 0.8012 0.7460 2.2509E-02 9 7.35 8.00 2.6335E-02 5.1914E-01 5.4548E-01 9.4643E-03 4.1070E-01 0.3594 0.7911 0.7356 2.3044E-02 10 8.27 9.00 2.2722E-02 4.3998E-01 4.6270E-01 8.0997E-03 3.4419E-01 0.3565 0.7823 0.7264 2.3532E-02 11 9.19 10.00 1.9497E-02 3.7163E-01 3.9113E-01 6.9017E-03 2.8785E-01 0.3540 0.7746 0.7183 2.3976E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 585.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.04373 0.11590 0.11321 0.08422 0.14836 0.14950 0.13429 1.000 2.000 1.500 0.07233 0.12644 0.12430 0.10158 0.15356 0.15454 0.14112 2.000 3.000 2.500 0.09206 0.13483 0.13305 0.11417 0.15803 0.15890 0.14680 3.000 4.000 3.500 0.10617 0.14168 0.14014 0.12395 0.16198 0.16276 0.15172 4.000 5.000 4.500 0.11723 0.14756 0.14621 0.13206 0.16553 0.16624 0.15609 5.000 6.000 5.500 0.12644 0.15277 0.15156 0.13907 0.16873 0.16939 0.16001 6.000 7.000 6.500 0.13439 0.15743 0.15635 0.14526 0.17164 0.17224 0.16354 7.000 8.000 7.500 0.14137 0.16164 0.16067 0.15076 0.17426 0.17481 0.16671 8.000 9.000 8.500 0.14757 0.16544 0.16457 0.15569 0.17665 0.17715 0.16957 9.000 10.000 9.500 0.15305 0.16884 0.16805 0.16006 0.17876 0.17921 0.17209 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 585.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 6.149E-02 3.937E-01 3.997E-02 9.067E-01 3.174E-03 2.063E-03 1 0.00 0.00 5.878E-03 6.248E+00 3.892E-03 4.338E+00 2 0.92 1.00 5.139E-03 4.705E+00 3.947E-03 4.561E+00 3 1.84 2.00 4.463E-03 3.490E+00 3.997E-03 4.745E+00 4 2.76 3.00 3.854E-03 2.575E+00 4.042E-03 4.902E+00 5 3.68 4.00 3.311E-03 1.902E+00 4.084E-03 5.040E+00 6 4.59 5.00 2.833E-03 1.412E+00 4.122E-03 5.163E+00 7 5.51 6.00 2.414E-03 1.055E+00 4.159E-03 5.272E+00 8 6.43 7.00 2.050E-03 7.953E-01 4.192E-03 5.369E+00 9 7.35 8.00 1.735E-03 6.044E-01 4.224E-03 5.455E+00 10 8.27 9.00 1.464E-03 4.633E-01 4.254E-03 5.532E+00 11 9.19 10.00 1.233E-03 3.581E-01 4.283E-03 5.599E+00 Waveband 24 of 40 completed in 0.2 sec. * * * * * Output for wavelength band 25 (590.0 to 600.0 nm; nominal wavelength = 595.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 30.5 m at 595.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 590.0 nm to 600.0 nm: Ed(diffuse) = 3.559E-01 Ed(direct) = 1.128E+00 Ed(total) = 1.484E+00 Absorption Coefficients of Individual Components at 595.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.1672 0.0171 0.0000 0.0020 0.1863 2 0.975 1.000 0.1672 0.0171 0.0000 0.0020 0.1863 3 1.950 2.000 0.1672 0.0171 0.0000 0.0020 0.1863 4 2.925 3.000 0.1672 0.0171 0.0000 0.0020 0.1863 5 3.900 4.000 0.1672 0.0171 0.0000 0.0020 0.1863 6 4.875 5.000 0.1672 0.0171 0.0000 0.0020 0.1863 7 5.850 6.000 0.1672 0.0171 0.0000 0.0020 0.1863 8 6.825 7.000 0.1672 0.0171 0.0000 0.0020 0.1863 9 7.801 8.000 0.1672 0.0171 0.0000 0.0020 0.1863 10 8.776 9.000 0.1672 0.0171 0.0000 0.0020 0.1863 11 9.751 10.000 0.1672 0.0171 0.0000 0.0020 0.1863 Scattering Coefficients of Individual Components at 595.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0014 0.2757 0.5116 0.0000 0.7887 2 0.975 1.000 0.0014 0.2757 0.5116 0.0000 0.7887 3 1.950 2.000 0.0014 0.2757 0.5116 0.0000 0.7887 4 2.925 3.000 0.0014 0.2757 0.5116 0.0000 0.7887 5 3.900 4.000 0.0014 0.2757 0.5116 0.0000 0.7887 6 4.875 5.000 0.0014 0.2757 0.5116 0.0000 0.7887 7 5.850 6.000 0.0014 0.2757 0.5116 0.0000 0.7887 8 6.825 7.000 0.0014 0.2757 0.5116 0.0000 0.7887 9 7.801 8.000 0.0014 0.2757 0.5116 0.0000 0.7887 10 8.776 9.000 0.0014 0.2757 0.5116 0.0000 0.7887 11 9.751 10.000 0.0014 0.2757 0.5116 0.0000 0.7887 Backscattering Coefficients of Individual Components at 595.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00068 0.00387 0.00090 0.00000 0.00545 2 0.975 1.000 0.00068 0.00387 0.00090 0.00000 0.00545 3 1.950 2.000 0.00068 0.00387 0.00090 0.00000 0.00545 4 2.925 3.000 0.00068 0.00387 0.00090 0.00000 0.00545 5 3.900 4.000 0.00068 0.00387 0.00090 0.00000 0.00545 6 4.875 5.000 0.00068 0.00387 0.00090 0.00000 0.00545 7 5.850 6.000 0.00068 0.00387 0.00090 0.00000 0.00545 8 6.825 7.000 0.00068 0.00387 0.00090 0.00000 0.00545 9 7.801 8.000 0.00068 0.00387 0.00090 0.00000 0.00545 10 8.776 9.000 0.00068 0.00387 0.00090 0.00000 0.00545 11 9.751 10.000 0.00068 0.00387 0.00090 0.00000 0.00545 Summary of Inherent Optical Properties at 595.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.1863 0.7887 0.9751 0.8089 0.00545 0.00691 2 0.975 1.000 0.1863 0.7887 0.9751 0.8089 0.00545 0.00691 3 1.950 2.000 0.1863 0.7887 0.9751 0.8089 0.00545 0.00691 4 2.925 3.000 0.1863 0.7887 0.9751 0.8089 0.00545 0.00691 5 3.900 4.000 0.1863 0.7887 0.9751 0.8089 0.00545 0.00691 6 4.875 5.000 0.1863 0.7887 0.9751 0.8089 0.00545 0.00691 7 5.850 6.000 0.1863 0.7887 0.9751 0.8089 0.00545 0.00691 8 6.825 7.000 0.1863 0.7887 0.9751 0.8089 0.00545 0.00691 9 7.801 8.000 0.1863 0.7887 0.9751 0.8089 0.00545 0.00691 10 8.776 9.000 0.1863 0.7887 0.9751 0.8089 0.00545 0.00691 11 9.751 10.000 0.1863 0.7887 0.9751 0.8089 0.00545 0.00691 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.3538E-01 8 20.00 7.8058E-01 7 30.00 5.8368E-01 6 40.00 3.9619E-01 5 50.00 2.4849E-01 4 60.00 1.4713E-01 3 70.00 8.4345E-02 2 80.00 4.8345E-02 1 87.50 3.1823E-02 1 92.50 2.3522E-02 2 100.00 1.6102E-02 3 110.00 1.0463E-02 4 120.00 7.2710E-03 5 130.00 5.4621E-03 6 140.00 4.4232E-03 7 150.00 3.8219E-03 8 160.00 3.4806E-03 9 170.00 3.3054E-03 10 180.00 3.2458E-03 Asymptotic source-free water AOP values are MUu(inf) = 0.3299 MUd(inf) = 0.7533 MU(inf) = 0.7142 R(m,inf) = 0.0164 k(inf) = 0.2609 (1/m) absorp(check) = 0.1863 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 595.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.2143E-01 1.8087E+00 1.9302E+00 5.0073E-02 1.4837E+00 0.4124 0.8203 0.7427 3.3749E-02 1 0.00 0.00 3.8955E-02 1.5463E+00 1.5852E+00 1.6125E-02 1.4515E+00 0.4140 0.9387 0.9055 1.1110E-02 2 0.98 1.00 3.5465E-02 1.2958E+00 1.3313E+00 1.4010E-02 1.1784E+00 0.3950 0.9094 0.8746 1.1889E-02 3 1.95 2.00 3.1019E-02 1.0715E+00 1.1025E+00 1.1905E-02 9.5046E-01 0.3838 0.8870 0.8513 1.2525E-02 4 2.93 3.00 2.6533E-02 8.7766E-01 9.0419E-01 9.9756E-03 7.6246E-01 0.3760 0.8687 0.8322 1.3083E-02 5 3.90 4.00 2.2362E-02 7.1348E-01 7.3584E-01 8.2740E-03 6.0879E-01 0.3700 0.8533 0.8161 1.3591E-02 6 4.88 5.00 1.8636E-02 5.7634E-01 5.9497E-01 6.8069E-03 4.8408E-01 0.3653 0.8399 0.8022 1.4062E-02 7 5.85 6.00 1.5389E-02 4.6298E-01 4.7837E-01 5.5618E-03 3.8350E-01 0.3614 0.8283 0.7901 1.4503E-02 8 6.83 7.00 1.2611E-02 3.7008E-01 3.8270E-01 4.5179E-03 3.0281E-01 0.3583 0.8182 0.7795 1.4920E-02 9 7.80 8.00 1.0265E-02 2.9454E-01 3.0480E-01 3.6515E-03 2.3840E-01 0.3557 0.8094 0.7702 1.5317E-02 10 8.78 9.00 8.3088E-03 2.3350E-01 2.4181E-01 2.9385E-03 1.8719E-01 0.3537 0.8017 0.7620 1.5698E-02 11 9.75 10.00 6.6921E-03 1.8447E-01 1.9116E-01 2.3562E-03 1.4664E-01 0.3521 0.7950 0.7548 1.6067E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 595.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.09384 0.17667 0.17455 0.14059 0.20840 0.20919 0.19225 1.000 2.000 1.500 0.13394 0.19008 0.18855 0.16285 0.21498 0.21562 0.20015 2.000 3.000 2.500 0.15621 0.19958 0.19833 0.17681 0.22039 0.22096 0.20618 3.000 4.000 3.500 0.17105 0.20710 0.20602 0.18702 0.22508 0.22559 0.21111 4.000 5.000 4.500 0.18228 0.21346 0.21250 0.19518 0.22922 0.22970 0.21526 5.000 6.000 5.500 0.19141 0.21902 0.21814 0.20202 0.23292 0.23337 0.21876 6.000 7.000 6.500 0.19913 0.22394 0.22314 0.20788 0.23623 0.23665 0.22170 7.000 8.000 7.500 0.20575 0.22833 0.22758 0.21291 0.23918 0.23958 0.22411 8.000 9.000 8.500 0.21147 0.23224 0.23153 0.21722 0.24180 0.24219 0.22601 9.000 10.000 9.500 0.21638 0.23570 0.23503 0.22086 0.24412 0.24450 0.22744 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 595.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 5.837E-02 3.761E-01 3.934E-02 8.579E-01 2.025E-03 1.365E-03 1 0.00 0.00 3.750E-03 6.035E+00 2.584E-03 4.300E+00 2 0.98 1.00 3.094E-03 4.295E+00 2.626E-03 4.528E+00 3 1.95 2.00 2.533E-03 3.010E+00 2.665E-03 4.700E+00 4 2.93 3.00 2.061E-03 2.098E+00 2.703E-03 4.840E+00 5 3.90 4.00 1.669E-03 1.463E+00 2.741E-03 4.958E+00 6 4.88 5.00 1.346E-03 1.025E+00 2.780E-03 5.059E+00 7 5.85 6.00 1.081E-03 7.228E-01 2.819E-03 5.144E+00 8 6.83 7.00 8.662E-04 5.137E-01 2.861E-03 5.216E+00 9 7.80 8.00 6.923E-04 3.682E-01 2.904E-03 5.274E+00 10 8.78 9.00 5.522E-04 2.660E-01 2.950E-03 5.321E+00 11 9.75 10.00 4.399E-04 1.936E-01 3.000E-03 5.356E+00 Waveband 25 of 40 completed in 0.2 sec. * * * * * Output for wavelength band 26 (600.0 to 610.0 nm; nominal wavelength = 605.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 28.8 m at 605.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 600.0 nm to 610.0 nm: Ed(diffuse) = 3.611E-01 Ed(direct) = 1.158E+00 Ed(total) = 1.519E+00 Absorption Coefficients of Individual Components at 605.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.2577 0.0165 0.0000 0.0018 0.2760 2 1.065 1.000 0.2577 0.0165 0.0000 0.0018 0.2760 3 2.129 2.000 0.2577 0.0165 0.0000 0.0018 0.2760 4 3.194 3.000 0.2577 0.0165 0.0000 0.0018 0.2760 5 4.258 4.000 0.2577 0.0165 0.0000 0.0018 0.2760 6 5.323 5.000 0.2577 0.0165 0.0000 0.0018 0.2760 7 6.388 6.000 0.2577 0.0165 0.0000 0.0018 0.2760 8 7.452 7.000 0.2577 0.0165 0.0000 0.0018 0.2760 9 8.517 8.000 0.2577 0.0165 0.0000 0.0018 0.2760 10 9.582 9.000 0.2577 0.0165 0.0000 0.0018 0.2760 11 10.646 10.000 0.2577 0.0165 0.0000 0.0018 0.2760 Scattering Coefficients of Individual Components at 605.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0013 0.2757 0.5116 0.0000 0.7886 2 1.065 1.000 0.0013 0.2757 0.5116 0.0000 0.7886 3 2.129 2.000 0.0013 0.2757 0.5116 0.0000 0.7886 4 3.194 3.000 0.0013 0.2757 0.5116 0.0000 0.7886 5 4.258 4.000 0.0013 0.2757 0.5116 0.0000 0.7886 6 5.323 5.000 0.0013 0.2757 0.5116 0.0000 0.7886 7 6.388 6.000 0.0013 0.2757 0.5116 0.0000 0.7886 8 7.452 7.000 0.0013 0.2757 0.5116 0.0000 0.7886 9 8.517 8.000 0.0013 0.2757 0.5116 0.0000 0.7886 10 9.582 9.000 0.0013 0.2757 0.5116 0.0000 0.7886 11 10.646 10.000 0.0013 0.2757 0.5116 0.0000 0.7886 Backscattering Coefficients of Individual Components at 605.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00063 0.00387 0.00090 0.00000 0.00540 2 1.065 1.000 0.00063 0.00387 0.00090 0.00000 0.00540 3 2.129 2.000 0.00063 0.00387 0.00090 0.00000 0.00540 4 3.194 3.000 0.00063 0.00387 0.00090 0.00000 0.00540 5 4.258 4.000 0.00063 0.00387 0.00090 0.00000 0.00540 6 5.323 5.000 0.00063 0.00387 0.00090 0.00000 0.00540 7 6.388 6.000 0.00063 0.00387 0.00090 0.00000 0.00540 8 7.452 7.000 0.00063 0.00387 0.00090 0.00000 0.00540 9 8.517 8.000 0.00063 0.00387 0.00090 0.00000 0.00540 10 9.582 9.000 0.00063 0.00387 0.00090 0.00000 0.00540 11 10.646 10.000 0.00063 0.00387 0.00090 0.00000 0.00540 Summary of Inherent Optical Properties at 605.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.2760 0.7886 1.0646 0.7408 0.00540 0.00685 2 1.065 1.000 0.2760 0.7886 1.0646 0.7408 0.00540 0.00685 3 2.129 2.000 0.2760 0.7886 1.0646 0.7408 0.00540 0.00685 4 3.194 3.000 0.2760 0.7886 1.0646 0.7408 0.00540 0.00685 5 4.258 4.000 0.2760 0.7886 1.0646 0.7408 0.00540 0.00685 6 5.323 5.000 0.2760 0.7886 1.0646 0.7408 0.00540 0.00685 7 6.388 6.000 0.2760 0.7886 1.0646 0.7408 0.00540 0.00685 8 7.452 7.000 0.2760 0.7886 1.0646 0.7408 0.00540 0.00685 9 8.517 8.000 0.2760 0.7886 1.0646 0.7408 0.00540 0.00685 10 9.582 9.000 0.2760 0.7886 1.0646 0.7408 0.00540 0.00685 11 10.646 10.000 0.2760 0.7886 1.0646 0.7408 0.00540 0.00685 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.2002E-01 8 20.00 7.3441E-01 7 30.00 5.1252E-01 6 40.00 3.1873E-01 5 50.00 1.8119E-01 4 60.00 9.7043E-02 3 70.00 5.0663E-02 2 80.00 2.6835E-02 1 87.50 1.6873E-02 1 92.50 1.2210E-02 2 100.00 8.1904E-03 3 110.00 5.2553E-03 4 120.00 3.6658E-03 5 130.00 2.7946E-03 6 140.00 2.3063E-03 7 150.00 2.0290E-03 8 160.00 1.8737E-03 9 170.00 1.7948E-03 10 180.00 1.7681E-03 Asymptotic source-free water AOP values are MUu(inf) = 0.3313 MUd(inf) = 0.7863 MU(inf) = 0.7609 R(m,inf) = 0.0098 k(inf) = 0.3627 (1/m) absorp(check) = 0.2760 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 605.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.1877E-01 1.8489E+00 1.9677E+00 4.8665E-02 1.5188E+00 0.4097 0.8215 0.7471 3.2042E-02 1 0.00 0.00 2.5825E-02 1.5710E+00 1.5969E+00 1.0537E-02 1.4825E+00 0.4080 0.9436 0.9218 7.1081E-03 2 1.06 1.00 2.1473E-02 1.1947E+00 1.2161E+00 8.3359E-03 1.0942E+00 0.3882 0.9159 0.8929 7.6185E-03 3 2.13 2.00 1.6973E-02 8.9377E-01 9.1074E-01 6.4233E-03 8.0090E-01 0.3785 0.8961 0.8723 8.0202E-03 4 3.19 3.00 1.3117E-02 6.6166E-01 6.7478E-01 4.8826E-03 5.8240E-01 0.3722 0.8802 0.8559 8.3835E-03 5 4.26 4.00 9.9998E-03 4.8585E-01 4.9585E-01 3.6788E-03 4.2117E-01 0.3679 0.8669 0.8420 8.7346E-03 6 5.32 5.00 7.5509E-03 3.5433E-01 3.6188E-01 2.7548E-03 3.0311E-01 0.3648 0.8554 0.8300 9.0883E-03 7 6.39 6.00 5.6618E-03 2.5690E-01 2.6256E-01 2.0541E-03 2.1722E-01 0.3628 0.8456 0.8195 9.4563E-03 8 7.45 7.00 4.2235E-03 1.8530E-01 1.8952E-01 1.5277E-03 1.5509E-01 0.3617 0.8370 0.8102 9.8507E-03 9 8.52 8.00 3.1396E-03 1.3306E-01 1.3620E-01 1.1351E-03 1.1037E-01 0.3615 0.8295 0.8020 1.0285E-02 10 9.58 9.00 2.3296E-03 9.5172E-02 9.7502E-02 8.4389E-04 7.8320E-02 0.3622 0.8229 0.7946 1.0775E-02 11 10.65 10.00 1.7281E-03 6.7846E-02 6.9574E-02 6.2878E-04 5.5444E-02 0.3639 0.8172 0.7879 1.1341E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 605.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.18455 0.27388 0.27237 0.23436 0.30370 0.30421 0.28382 1.000 2.000 1.500 0.23518 0.29017 0.28917 0.26064 0.31202 0.31242 0.29184 2.000 3.000 2.500 0.25769 0.30070 0.29988 0.27427 0.31857 0.31894 0.29667 3.000 4.000 3.500 0.27135 0.30885 0.30811 0.28309 0.32412 0.32447 0.29956 4.000 5.000 4.500 0.28089 0.31567 0.31496 0.28925 0.32895 0.32931 0.30085 5.000 6.000 5.500 0.28793 0.32155 0.32084 0.29349 0.33319 0.33356 0.30064 6.000 7.000 6.500 0.29308 0.32670 0.32596 0.29607 0.33692 0.33732 0.29895 7.000 8.000 7.500 0.29655 0.33119 0.33041 0.29705 0.34018 0.34062 0.29573 8.000 9.000 8.500 0.29841 0.33509 0.33423 0.29645 0.34301 0.34350 0.29099 9.000 10.000 9.500 0.29866 0.33845 0.33748 0.29424 0.34543 0.34601 0.28476 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 605.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 5.912E-02 3.816E-01 3.892E-02 8.232E-01 1.341E-03 8.832E-04 1 0.00 0.00 2.485E-03 6.188E+00 1.676E-03 4.240E+00 2 1.06 1.00 1.871E-03 4.025E+00 1.710E-03 4.455E+00 3 2.13 2.00 1.398E-03 2.576E+00 1.745E-03 4.596E+00 4 3.19 3.00 1.039E-03 1.640E+00 1.784E-03 4.700E+00 5 4.26 4.00 7.699E-04 1.044E+00 1.828E-03 4.778E+00 6 5.32 5.00 5.699E-04 6.672E-01 1.880E-03 4.834E+00 7 6.39 6.00 4.219E-04 4.291E-01 1.942E-03 4.869E+00 8 7.45 7.00 3.129E-04 2.780E-01 2.017E-03 4.883E+00 9 8.52 8.00 2.328E-04 1.815E-01 2.109E-03 4.876E+00 10 9.58 9.00 1.740E-04 1.194E-01 2.222E-03 4.850E+00 11 10.65 10.00 1.309E-04 7.908E-02 2.361E-03 4.804E+00 Waveband 26 of 40 completed in 0.3 sec. * * * * * Output for wavelength band 27 (610.0 to 620.0 nm; nominal wavelength = 615.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 28.6 m at 615.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 610.0 nm to 620.0 nm: Ed(diffuse) = 3.493E-01 Ed(direct) = 1.132E+00 Ed(total) = 1.482E+00 Absorption Coefficients of Individual Components at 615.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.2678 0.0176 0.0000 0.0015 0.2869 2 1.075 1.000 0.2678 0.0176 0.0000 0.0015 0.2869 3 2.151 2.000 0.2678 0.0176 0.0000 0.0015 0.2869 4 3.226 3.000 0.2678 0.0176 0.0000 0.0015 0.2869 5 4.302 4.000 0.2678 0.0176 0.0000 0.0015 0.2869 6 5.377 5.000 0.2678 0.0176 0.0000 0.0015 0.2869 7 6.453 6.000 0.2678 0.0176 0.0000 0.0015 0.2869 8 7.528 7.000 0.2678 0.0176 0.0000 0.0015 0.2869 9 8.603 8.000 0.2678 0.0176 0.0000 0.0015 0.2869 10 9.679 9.000 0.2678 0.0176 0.0000 0.0015 0.2869 11 10.754 10.000 0.2678 0.0176 0.0000 0.0015 0.2869 Scattering Coefficients of Individual Components at 615.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0012 0.2757 0.5116 0.0000 0.7885 2 1.075 1.000 0.0012 0.2757 0.5116 0.0000 0.7885 3 2.151 2.000 0.0012 0.2757 0.5116 0.0000 0.7885 4 3.226 3.000 0.0012 0.2757 0.5116 0.0000 0.7885 5 4.302 4.000 0.0012 0.2757 0.5116 0.0000 0.7885 6 5.377 5.000 0.0012 0.2757 0.5116 0.0000 0.7885 7 6.453 6.000 0.0012 0.2757 0.5116 0.0000 0.7885 8 7.528 7.000 0.0012 0.2757 0.5116 0.0000 0.7885 9 8.603 8.000 0.0012 0.2757 0.5116 0.0000 0.7885 10 9.679 9.000 0.0012 0.2757 0.5116 0.0000 0.7885 11 10.754 10.000 0.0012 0.2757 0.5116 0.0000 0.7885 Backscattering Coefficients of Individual Components at 615.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00059 0.00387 0.00090 0.00000 0.00536 2 1.075 1.000 0.00059 0.00387 0.00090 0.00000 0.00536 3 2.151 2.000 0.00059 0.00387 0.00090 0.00000 0.00536 4 3.226 3.000 0.00059 0.00387 0.00090 0.00000 0.00536 5 4.302 4.000 0.00059 0.00387 0.00090 0.00000 0.00536 6 5.377 5.000 0.00059 0.00387 0.00090 0.00000 0.00536 7 6.453 6.000 0.00059 0.00387 0.00090 0.00000 0.00536 8 7.528 7.000 0.00059 0.00387 0.00090 0.00000 0.00536 9 8.603 8.000 0.00059 0.00387 0.00090 0.00000 0.00536 10 9.679 9.000 0.00059 0.00387 0.00090 0.00000 0.00536 11 10.754 10.000 0.00059 0.00387 0.00090 0.00000 0.00536 Summary of Inherent Optical Properties at 615.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.2869 0.7885 1.0754 0.7332 0.00536 0.00680 2 1.075 1.000 0.2869 0.7885 1.0754 0.7332 0.00536 0.00680 3 2.151 2.000 0.2869 0.7885 1.0754 0.7332 0.00536 0.00680 4 3.226 3.000 0.2869 0.7885 1.0754 0.7332 0.00536 0.00680 5 4.302 4.000 0.2869 0.7885 1.0754 0.7332 0.00536 0.00680 6 5.377 5.000 0.2869 0.7885 1.0754 0.7332 0.00536 0.00680 7 6.453 6.000 0.2869 0.7885 1.0754 0.7332 0.00536 0.00680 8 7.528 7.000 0.2869 0.7885 1.0754 0.7332 0.00536 0.00680 9 8.603 8.000 0.2869 0.7885 1.0754 0.7332 0.00536 0.00680 10 9.679 9.000 0.2869 0.7885 1.0754 0.7332 0.00536 0.00680 11 10.754 10.000 0.2869 0.7885 1.0754 0.7332 0.00536 0.00680 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.1830E-01 8 20.00 7.2938E-01 7 30.00 5.0511E-01 6 40.00 3.1110E-01 5 50.00 1.7497E-01 4 60.00 9.2722E-02 3 70.00 4.7942E-02 2 80.00 2.5194E-02 1 87.50 1.5771E-02 1 92.50 1.1391E-02 2 100.00 7.6258E-03 3 110.00 4.8860E-03 4 120.00 3.4078E-03 5 130.00 2.5998E-03 6 140.00 2.1478E-03 7 150.00 1.8915E-03 8 160.00 1.7481E-03 9 170.00 1.6753E-03 10 180.00 1.6506E-03 Asymptotic source-free water AOP values are MUu(inf) = 0.3312 MUd(inf) = 0.7896 MU(inf) = 0.7653 R(m,inf) = 0.0093 k(inf) = 0.3748 (1/m) absorp(check) = 0.2869 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 615.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.1481E-01 1.8013E+00 1.9161E+00 4.7149E-02 1.4817E+00 0.4107 0.8226 0.7487 3.1821E-02 1 0.00 0.00 2.3946E-02 1.5314E+00 1.5553E+00 9.7457E-03 1.4460E+00 0.4070 0.9443 0.9235 6.7397E-03 2 1.08 1.00 1.9691E-02 1.1510E+00 1.1706E+00 7.6214E-03 1.0551E+00 0.3871 0.9168 0.8948 7.2232E-03 3 2.15 2.00 1.5375E-02 8.5085E-01 8.6622E-01 5.8027E-03 7.6340E-01 0.3774 0.8972 0.8746 7.6011E-03 4 3.23 3.00 1.1737E-02 6.2235E-01 6.3409E-01 4.3581E-03 5.4865E-01 0.3713 0.8816 0.8584 7.9433E-03 5 4.30 4.00 8.8390E-03 4.5149E-01 4.6033E-01 3.2447E-03 3.9209E-01 0.3671 0.8684 0.8447 8.2753E-03 6 5.38 5.00 6.5943E-03 3.2529E-01 3.3189E-01 2.4013E-03 2.7883E-01 0.3641 0.8572 0.8329 8.6118E-03 7 6.45 6.00 4.8861E-03 2.3298E-01 2.3787E-01 1.7700E-03 1.9744E-01 0.3623 0.8474 0.8226 8.9649E-03 8 7.53 7.00 3.6026E-03 1.6600E-01 1.6960E-01 1.3018E-03 1.3927E-01 0.3613 0.8390 0.8135 9.3473E-03 9 8.60 8.00 2.6482E-03 1.1774E-01 1.2039E-01 9.5698E-04 9.7919E-02 0.3614 0.8316 0.8054 9.7732E-03 10 9.68 9.00 1.9440E-03 8.3191E-02 8.5135E-02 7.0438E-04 6.8650E-02 0.3623 0.8252 0.7981 1.0261E-02 11 10.75 10.00 1.4275E-03 5.8582E-02 6.0009E-02 5.2002E-04 4.8012E-02 0.3643 0.8196 0.7914 1.0831E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 615.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.19564 0.28556 0.28411 0.24586 0.31514 0.31563 0.29540 1.000 2.000 1.500 0.24744 0.30211 0.30117 0.27264 0.32365 0.32403 0.30353 2.000 3.000 2.500 0.26999 0.31273 0.31196 0.28629 0.33032 0.33067 0.30832 3.000 4.000 3.500 0.28356 0.32095 0.32025 0.29502 0.33597 0.33630 0.31105 4.000 5.000 4.500 0.29297 0.32783 0.32715 0.30101 0.34088 0.34122 0.31208 5.000 6.000 5.500 0.29981 0.33376 0.33308 0.30500 0.34519 0.34554 0.31149 6.000 7.000 6.500 0.30474 0.33899 0.33828 0.30726 0.34902 0.34941 0.30930 7.000 8.000 7.500 0.30779 0.34345 0.34268 0.30771 0.35226 0.35269 0.30534 8.000 9.000 8.500 0.30915 0.34736 0.34651 0.30646 0.35512 0.35561 0.29972 9.000 10.000 9.500 0.30878 0.35072 0.34974 0.30345 0.35756 0.35814 0.29245 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 615.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 5.769E-02 3.692E-01 3.894E-02 8.172E-01 1.239E-03 8.361E-04 1 0.00 0.00 2.295E-03 6.046E+00 1.587E-03 4.246E+00 2 1.08 1.00 1.708E-03 3.890E+00 1.619E-03 4.462E+00 3 2.15 2.00 1.261E-03 2.463E+00 1.652E-03 4.602E+00 4 3.23 3.00 9.264E-04 1.550E+00 1.688E-03 4.704E+00 5 4.30 4.00 6.787E-04 9.762E-01 1.731E-03 4.780E+00 6 5.38 5.00 4.968E-04 6.171E-01 1.782E-03 4.834E+00 7 6.45 6.00 3.638E-04 3.924E-01 1.843E-03 4.865E+00 8 7.53 7.00 2.670E-04 2.514E-01 1.917E-03 4.875E+00 9 8.60 8.00 1.968E-04 1.622E-01 2.009E-03 4.864E+00 10 9.68 9.00 1.458E-04 1.055E-01 2.124E-03 4.831E+00 11 10.75 10.00 1.088E-04 6.911E-02 2.267E-03 4.778E+00 Waveband 27 of 40 completed in 0.3 sec. * * * * * Output for wavelength band 28 (620.0 to 630.0 nm; nominal wavelength = 625.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 28.3 m at 625.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 620.0 nm to 630.0 nm: Ed(diffuse) = 3.429E-01 Ed(direct) = 1.123E+00 Ed(total) = 1.466E+00 Absorption Coefficients of Individual Components at 625.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.2834 0.0183 0.0000 0.0013 0.3030 2 1.091 1.000 0.2834 0.0183 0.0000 0.0013 0.3030 3 2.183 2.000 0.2834 0.0183 0.0000 0.0013 0.3030 4 3.274 3.000 0.2834 0.0183 0.0000 0.0013 0.3030 5 4.366 4.000 0.2834 0.0183 0.0000 0.0013 0.3030 6 5.457 5.000 0.2834 0.0183 0.0000 0.0013 0.3030 7 6.549 6.000 0.2834 0.0183 0.0000 0.0013 0.3030 8 7.640 7.000 0.2834 0.0183 0.0000 0.0013 0.3030 9 8.732 8.000 0.2834 0.0183 0.0000 0.0013 0.3030 10 9.823 9.000 0.2834 0.0183 0.0000 0.0013 0.3030 11 10.915 10.000 0.2834 0.0183 0.0000 0.0013 0.3030 Scattering Coefficients of Individual Components at 625.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0011 0.2757 0.5116 0.0000 0.7885 2 1.091 1.000 0.0011 0.2757 0.5116 0.0000 0.7885 3 2.183 2.000 0.0011 0.2757 0.5116 0.0000 0.7885 4 3.274 3.000 0.0011 0.2757 0.5116 0.0000 0.7885 5 4.366 4.000 0.0011 0.2757 0.5116 0.0000 0.7885 6 5.457 5.000 0.0011 0.2757 0.5116 0.0000 0.7885 7 6.549 6.000 0.0011 0.2757 0.5116 0.0000 0.7885 8 7.640 7.000 0.0011 0.2757 0.5116 0.0000 0.7885 9 8.732 8.000 0.0011 0.2757 0.5116 0.0000 0.7885 10 9.823 9.000 0.0011 0.2757 0.5116 0.0000 0.7885 11 10.915 10.000 0.0011 0.2757 0.5116 0.0000 0.7885 Backscattering Coefficients of Individual Components at 625.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00055 0.00387 0.00090 0.00000 0.00532 2 1.091 1.000 0.00055 0.00387 0.00090 0.00000 0.00532 3 2.183 2.000 0.00055 0.00387 0.00090 0.00000 0.00532 4 3.274 3.000 0.00055 0.00387 0.00090 0.00000 0.00532 5 4.366 4.000 0.00055 0.00387 0.00090 0.00000 0.00532 6 5.457 5.000 0.00055 0.00387 0.00090 0.00000 0.00532 7 6.549 6.000 0.00055 0.00387 0.00090 0.00000 0.00532 8 7.640 7.000 0.00055 0.00387 0.00090 0.00000 0.00532 9 8.732 8.000 0.00055 0.00387 0.00090 0.00000 0.00532 10 9.823 9.000 0.00055 0.00387 0.00090 0.00000 0.00532 11 10.915 10.000 0.00055 0.00387 0.00090 0.00000 0.00532 Summary of Inherent Optical Properties at 625.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.3030 0.7885 1.0915 0.7224 0.00532 0.00675 2 1.091 1.000 0.3030 0.7885 1.0915 0.7224 0.00532 0.00675 3 2.183 2.000 0.3030 0.7885 1.0915 0.7224 0.00532 0.00675 4 3.274 3.000 0.3030 0.7885 1.0915 0.7224 0.00532 0.00675 5 4.366 4.000 0.3030 0.7885 1.0915 0.7224 0.00532 0.00675 6 5.457 5.000 0.3030 0.7885 1.0915 0.7224 0.00532 0.00675 7 6.549 6.000 0.3030 0.7885 1.0915 0.7224 0.00532 0.00675 8 7.640 7.000 0.3030 0.7885 1.0915 0.7224 0.00532 0.00675 9 8.732 8.000 0.3030 0.7885 1.0915 0.7224 0.00532 0.00675 10 9.823 9.000 0.3030 0.7885 1.0915 0.7224 0.00532 0.00675 11 10.915 10.000 0.3030 0.7885 1.0915 0.7224 0.00532 0.00675 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.1580E-01 8 20.00 7.2213E-01 7 30.00 4.9453E-01 6 40.00 3.0036E-01 5 50.00 1.6637E-01 4 60.00 8.6836E-02 3 70.00 4.4295E-02 2 80.00 2.3027E-02 1 87.50 1.4330E-02 1 92.50 1.0326E-02 2 100.00 6.8984E-03 3 110.00 4.4145E-03 4 120.00 3.0809E-03 5 130.00 2.3545E-03 6 140.00 1.9493E-03 7 150.00 1.7199E-03 8 160.00 1.5918E-03 9 170.00 1.5268E-03 10 180.00 1.5047E-03 Asymptotic source-free water AOP values are MUu(inf) = 0.3314 MUd(inf) = 0.7942 MU(inf) = 0.7714 R(m,inf) = 0.0086 k(inf) = 0.3928 (1/m) absorp(check) = 0.3030 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 625.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.1249E-01 1.7799E+00 1.8924E+00 4.6282E-02 1.4660E+00 0.4114 0.8236 0.7502 3.1570E-02 1 0.00 0.00 2.2149E-02 1.5136E+00 1.5358E+00 8.9875E-03 1.4304E+00 0.4058 0.9450 0.9256 6.2830E-03 2 1.09 1.00 1.7908E-02 1.1180E+00 1.1359E+00 6.9084E-03 1.0261E+00 0.3858 0.9178 0.8973 6.7324E-03 3 2.18 2.00 1.3729E-02 8.1197E-01 8.2570E-01 5.1670E-03 7.2970E-01 0.3764 0.8987 0.8775 7.0810E-03 4 3.27 3.00 1.0291E-02 5.8339E-01 5.9368E-01 3.8125E-03 5.1535E-01 0.3705 0.8834 0.8616 7.3979E-03 5 4.37 4.00 7.6121E-03 4.1569E-01 4.2330E-01 2.7893E-03 3.6187E-01 0.3664 0.8705 0.8483 7.7081E-03 6 5.46 5.00 5.5796E-03 2.9415E-01 2.9973E-01 2.0293E-03 2.5283E-01 0.3637 0.8595 0.8368 8.0266E-03 7 6.55 6.00 4.0635E-03 2.0690E-01 2.1096E-01 1.4714E-03 1.7587E-01 0.3621 0.8500 0.8267 8.3664E-03 8 7.64 7.00 2.9465E-03 1.4476E-01 1.4770E-01 1.0652E-03 1.2185E-01 0.3615 0.8418 0.8178 8.7414E-03 9 8.73 8.00 2.1317E-03 1.0083E-01 1.0296E-01 7.7155E-04 8.4153E-02 0.3619 0.8346 0.8098 9.1684E-03 10 9.82 9.00 1.5417E-03 6.9961E-02 7.1503E-02 5.6030E-04 5.7950E-02 0.3634 0.8283 0.8026 9.6686E-03 11 10.91 10.00 1.1170E-03 4.8380E-02 4.9497E-02 4.0879E-04 3.9808E-02 0.3660 0.8228 0.7960 1.0269E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 625.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.21253 0.30294 0.30158 0.26309 0.33217 0.33262 0.31244 1.000 2.000 1.500 0.26575 0.31985 0.31898 0.29045 0.34094 0.34129 0.32065 2.000 3.000 2.500 0.28822 0.33060 0.32988 0.30401 0.34778 0.34810 0.32527 3.000 4.000 3.500 0.30154 0.33892 0.33826 0.31248 0.35356 0.35388 0.32765 4.000 5.000 4.500 0.31063 0.34587 0.34522 0.31809 0.35858 0.35890 0.32812 5.000 6.000 5.500 0.31706 0.35186 0.35120 0.32153 0.36298 0.36332 0.32673 6.000 7.000 6.500 0.32143 0.35715 0.35645 0.32306 0.36691 0.36729 0.32350 7.000 8.000 7.500 0.32369 0.36161 0.36084 0.32248 0.37017 0.37060 0.31814 8.000 9.000 8.500 0.32404 0.36552 0.36464 0.31994 0.37306 0.37356 0.31084 9.000 10.000 9.500 0.32227 0.36885 0.36782 0.31527 0.37551 0.37612 0.30160 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 625.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 5.708E-02 3.624E-01 3.894E-02 8.108E-01 1.142E-03 7.787E-04 1 0.00 0.00 2.115E-03 5.990E+00 1.479E-03 4.249E+00 2 1.09 1.00 1.548E-03 3.792E+00 1.508E-03 4.464E+00 3 2.18 2.00 1.123E-03 2.363E+00 1.539E-03 4.601E+00 4 3.27 3.00 8.112E-04 1.463E+00 1.574E-03 4.700E+00 5 4.37 4.00 5.845E-04 9.062E-01 1.615E-03 4.772E+00 6 5.46 5.00 4.210E-04 5.635E-01 1.665E-03 4.820E+00 7 6.55 6.00 3.037E-04 3.525E-01 1.727E-03 4.845E+00 8 7.64 7.00 2.197E-04 2.220E-01 1.803E-03 4.847E+00 9 8.73 8.00 1.599E-04 1.409E-01 1.900E-03 4.826E+00 10 9.82 9.00 1.172E-04 9.012E-02 2.022E-03 4.782E+00 11 10.91 10.00 8.665E-05 5.803E-02 2.177E-03 4.718E+00 Waveband 28 of 40 completed in 0.3 sec. * * * * * Output for wavelength band 29 (630.0 to 640.0 nm; nominal wavelength = 635.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 28.0 m at 635.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 630.0 nm to 640.0 nm: Ed(diffuse) = 3.360E-01 Ed(direct) = 1.111E+00 Ed(total) = 1.447E+00 Absorption Coefficients of Individual Components at 635.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.3012 0.0193 0.0000 0.0012 0.3216 2 1.110 1.000 0.3012 0.0193 0.0000 0.0012 0.3216 3 2.220 2.000 0.3012 0.0193 0.0000 0.0012 0.3216 4 3.330 3.000 0.3012 0.0193 0.0000 0.0012 0.3216 5 4.440 4.000 0.3012 0.0193 0.0000 0.0012 0.3216 6 5.550 5.000 0.3012 0.0193 0.0000 0.0012 0.3216 7 6.660 6.000 0.3012 0.0193 0.0000 0.0012 0.3216 8 7.770 7.000 0.3012 0.0193 0.0000 0.0012 0.3216 9 8.880 8.000 0.3012 0.0193 0.0000 0.0012 0.3216 10 9.990 9.000 0.3012 0.0193 0.0000 0.0012 0.3216 11 11.100 10.000 0.3012 0.0193 0.0000 0.0012 0.3216 Scattering Coefficients of Individual Components at 635.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0010 0.2757 0.5116 0.0000 0.7884 2 1.110 1.000 0.0010 0.2757 0.5116 0.0000 0.7884 3 2.220 2.000 0.0010 0.2757 0.5116 0.0000 0.7884 4 3.330 3.000 0.0010 0.2757 0.5116 0.0000 0.7884 5 4.440 4.000 0.0010 0.2757 0.5116 0.0000 0.7884 6 5.550 5.000 0.0010 0.2757 0.5116 0.0000 0.7884 7 6.660 6.000 0.0010 0.2757 0.5116 0.0000 0.7884 8 7.770 7.000 0.0010 0.2757 0.5116 0.0000 0.7884 9 8.880 8.000 0.0010 0.2757 0.5116 0.0000 0.7884 10 9.990 9.000 0.0010 0.2757 0.5116 0.0000 0.7884 11 11.100 10.000 0.0010 0.2757 0.5116 0.0000 0.7884 Backscattering Coefficients of Individual Components at 635.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00051 0.00387 0.00090 0.00000 0.00528 2 1.110 1.000 0.00051 0.00387 0.00090 0.00000 0.00528 3 2.220 2.000 0.00051 0.00387 0.00090 0.00000 0.00528 4 3.330 3.000 0.00051 0.00387 0.00090 0.00000 0.00528 5 4.440 4.000 0.00051 0.00387 0.00090 0.00000 0.00528 6 5.550 5.000 0.00051 0.00387 0.00090 0.00000 0.00528 7 6.660 6.000 0.00051 0.00387 0.00090 0.00000 0.00528 8 7.770 7.000 0.00051 0.00387 0.00090 0.00000 0.00528 9 8.880 8.000 0.00051 0.00387 0.00090 0.00000 0.00528 10 9.990 9.000 0.00051 0.00387 0.00090 0.00000 0.00528 11 11.100 10.000 0.00051 0.00387 0.00090 0.00000 0.00528 Summary of Inherent Optical Properties at 635.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.3216 0.7884 1.1100 0.7102 0.00528 0.00670 2 1.110 1.000 0.3216 0.7884 1.1100 0.7102 0.00528 0.00670 3 2.220 2.000 0.3216 0.7884 1.1100 0.7102 0.00528 0.00670 4 3.330 3.000 0.3216 0.7884 1.1100 0.7102 0.00528 0.00670 5 4.440 4.000 0.3216 0.7884 1.1100 0.7102 0.00528 0.00670 6 5.550 5.000 0.3216 0.7884 1.1100 0.7102 0.00528 0.00670 7 6.660 6.000 0.3216 0.7884 1.1100 0.7102 0.00528 0.00670 8 7.770 7.000 0.3216 0.7884 1.1100 0.7102 0.00528 0.00670 9 8.880 8.000 0.3216 0.7884 1.1100 0.7102 0.00528 0.00670 10 9.990 9.000 0.3216 0.7884 1.1100 0.7102 0.00528 0.00670 11 11.100 10.000 0.3216 0.7884 1.1100 0.7102 0.00528 0.00670 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.1299E-01 8 20.00 7.1404E-01 7 30.00 4.8287E-01 6 40.00 2.8874E-01 5 50.00 1.5723E-01 4 60.00 8.0709E-02 3 70.00 4.0570E-02 2 80.00 2.0850E-02 1 87.50 1.2897E-02 1 92.50 9.2734E-03 2 100.00 6.1831E-03 3 110.00 3.9533E-03 4 120.00 2.7622E-03 5 130.00 2.1157E-03 6 140.00 1.7559E-03 7 150.00 1.5526E-03 8 160.00 1.4392E-03 9 170.00 1.3818E-03 10 180.00 1.3623E-03 Asymptotic source-free water AOP values are MUu(inf) = 0.3318 MUd(inf) = 0.7991 MU(inf) = 0.7779 R(m,inf) = 0.0079 k(inf) = 0.4135 (1/m) absorp(check) = 0.3216 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 635.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.1000E-01 1.7550E+00 1.8650E+00 4.5338E-02 1.4472E+00 0.4122 0.8246 0.7517 3.1327E-02 1 0.00 0.00 2.0363E-02 1.4928E+00 1.5131E+00 8.2395E-03 1.4119E+00 0.4046 0.9458 0.9276 5.8359E-03 2 1.11 1.00 1.6145E-02 1.0807E+00 1.0969E+00 6.2099E-03 9.9312E-01 0.3846 0.9189 0.8997 6.2529E-03 3 2.22 2.00 1.2121E-02 7.6902E-01 7.8115E-01 4.5519E-03 6.9228E-01 0.3755 0.9002 0.8804 6.5753E-03 4 3.33 3.00 8.9008E-03 5.4129E-01 5.5019E-01 3.2927E-03 4.7918E-01 0.3699 0.8853 0.8650 6.8715E-03 5 4.44 4.00 6.4526E-03 3.7781E-01 3.8426E-01 2.3631E-03 3.2972E-01 0.3662 0.8727 0.8519 7.1668E-03 6 5.55 5.00 4.6384E-03 2.6185E-01 2.6649E-01 1.6877E-03 2.2572E-01 0.3639 0.8620 0.8407 7.4772E-03 7 6.66 6.00 3.3156E-03 1.8039E-01 1.8371E-01 1.2026E-03 1.5383E-01 0.3627 0.8528 0.8308 7.8176E-03 8 7.77 7.00 2.3626E-03 1.2362E-01 1.2599E-01 8.5689E-04 1.0443E-01 0.3627 0.8447 0.8221 8.2056E-03 9 8.88 8.00 1.6820E-03 8.4337E-02 8.6019E-02 6.1202E-04 7.0651E-02 0.3639 0.8377 0.8142 8.6627E-03 10 9.99 9.00 1.1993E-03 5.7312E-02 5.8512E-02 4.3928E-04 4.7661E-02 0.3663 0.8316 0.8070 9.2169E-03 11 11.10 10.00 8.5861E-04 3.8820E-02 3.9678E-02 3.1766E-04 3.2073E-02 0.3700 0.8262 0.8003 9.9041E-03 LAYER-AVERAGE K-functions (units of 1/meter) at 635.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.23212 0.32299 0.32171 0.28280 0.35180 0.35222 0.33163 1.000 2.000 1.500 0.28664 0.34028 0.33947 0.31060 0.36087 0.36119 0.33970 2.000 3.000 2.500 0.30881 0.35117 0.35050 0.32383 0.36790 0.36820 0.34384 3.000 4.000 3.500 0.32166 0.35958 0.35895 0.33175 0.37383 0.37412 0.34542 4.000 5.000 4.500 0.33012 0.36660 0.36597 0.33657 0.37896 0.37927 0.34475 5.000 6.000 5.500 0.33571 0.37264 0.37199 0.33892 0.38345 0.38379 0.34180 6.000 7.000 6.500 0.33890 0.37789 0.37717 0.33893 0.38736 0.38775 0.33647 7.000 8.000 7.500 0.33976 0.38243 0.38161 0.33653 0.39074 0.39120 0.32866 8.000 9.000 8.500 0.33823 0.38631 0.38535 0.33163 0.39364 0.39420 0.31838 9.000 10.000 9.500 0.33419 0.38958 0.38842 0.32417 0.39609 0.39678 0.30578 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 635.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 5.635E-02 3.550E-01 3.894E-02 8.045E-01 1.047E-03 7.232E-04 1 0.00 0.00 1.939E-03 5.921E+00 1.373E-03 4.249E+00 2 1.11 1.00 1.392E-03 3.680E+00 1.401E-03 4.462E+00 3 2.22 2.00 9.909E-04 2.250E+00 1.431E-03 4.593E+00 4 3.33 3.00 7.026E-04 1.367E+00 1.466E-03 4.686E+00 5 4.44 4.00 4.974E-04 8.310E-01 1.509E-03 4.751E+00 6 5.55 5.00 3.524E-04 5.070E-01 1.561E-03 4.790E+00 7 6.66 6.00 2.503E-04 3.111E-01 1.627E-03 4.804E+00 8 7.77 7.00 1.788E-04 1.923E-01 1.712E-03 4.792E+00 9 8.88 8.00 1.287E-04 1.197E-01 1.822E-03 4.754E+00 10 9.99 9.00 9.363E-05 7.508E-02 1.964E-03 4.692E+00 11 11.10 10.00 6.896E-05 4.742E-02 2.150E-03 4.606E+00 Waveband 29 of 40 completed in 0.3 sec. * * * * * Output for wavelength band 30 (640.0 to 650.0 nm; nominal wavelength = 645.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 27.6 m at 645.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 640.0 nm to 650.0 nm: Ed(diffuse) = 3.233E-01 Ed(direct) = 1.079E+00 Ed(total) = 1.403E+00 Absorption Coefficients of Individual Components at 645.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.3250 0.0197 0.0000 0.0010 0.3457 2 1.134 1.000 0.3250 0.0197 0.0000 0.0010 0.3457 3 2.268 2.000 0.3250 0.0197 0.0000 0.0010 0.3457 4 3.402 3.000 0.3250 0.0197 0.0000 0.0010 0.3457 5 4.536 4.000 0.3250 0.0197 0.0000 0.0010 0.3457 6 5.670 5.000 0.3250 0.0197 0.0000 0.0010 0.3457 7 6.804 6.000 0.3250 0.0197 0.0000 0.0010 0.3457 8 7.938 7.000 0.3250 0.0197 0.0000 0.0010 0.3457 9 9.073 8.000 0.3250 0.0197 0.0000 0.0010 0.3457 10 10.207 9.000 0.3250 0.0197 0.0000 0.0010 0.3457 11 11.341 10.000 0.3250 0.0197 0.0000 0.0010 0.3457 Scattering Coefficients of Individual Components at 645.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0010 0.2757 0.5116 0.0000 0.7883 2 1.134 1.000 0.0010 0.2757 0.5116 0.0000 0.7883 3 2.268 2.000 0.0010 0.2757 0.5116 0.0000 0.7883 4 3.402 3.000 0.0010 0.2757 0.5116 0.0000 0.7883 5 4.536 4.000 0.0010 0.2757 0.5116 0.0000 0.7883 6 5.670 5.000 0.0010 0.2757 0.5116 0.0000 0.7883 7 6.804 6.000 0.0010 0.2757 0.5116 0.0000 0.7883 8 7.938 7.000 0.0010 0.2757 0.5116 0.0000 0.7883 9 9.073 8.000 0.0010 0.2757 0.5116 0.0000 0.7883 10 10.207 9.000 0.0010 0.2757 0.5116 0.0000 0.7883 11 11.341 10.000 0.0010 0.2757 0.5116 0.0000 0.7883 Backscattering Coefficients of Individual Components at 645.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00048 0.00387 0.00090 0.00000 0.00525 2 1.134 1.000 0.00048 0.00387 0.00090 0.00000 0.00525 3 2.268 2.000 0.00048 0.00387 0.00090 0.00000 0.00525 4 3.402 3.000 0.00048 0.00387 0.00090 0.00000 0.00525 5 4.536 4.000 0.00048 0.00387 0.00090 0.00000 0.00525 6 5.670 5.000 0.00048 0.00387 0.00090 0.00000 0.00525 7 6.804 6.000 0.00048 0.00387 0.00090 0.00000 0.00525 8 7.938 7.000 0.00048 0.00387 0.00090 0.00000 0.00525 9 9.073 8.000 0.00048 0.00387 0.00090 0.00000 0.00525 10 10.207 9.000 0.00048 0.00387 0.00090 0.00000 0.00525 11 11.341 10.000 0.00048 0.00387 0.00090 0.00000 0.00525 Summary of Inherent Optical Properties at 645.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.3457 0.7883 1.1341 0.6951 0.00525 0.00666 2 1.134 1.000 0.3457 0.7883 1.1341 0.6951 0.00525 0.00666 3 2.268 2.000 0.3457 0.7883 1.1341 0.6951 0.00525 0.00666 4 3.402 3.000 0.3457 0.7883 1.1341 0.6951 0.00525 0.00666 5 4.536 4.000 0.3457 0.7883 1.1341 0.6951 0.00525 0.00666 6 5.670 5.000 0.3457 0.7883 1.1341 0.6951 0.00525 0.00666 7 6.804 6.000 0.3457 0.7883 1.1341 0.6951 0.00525 0.00666 8 7.938 7.000 0.3457 0.7883 1.1341 0.6951 0.00525 0.00666 9 9.073 8.000 0.3457 0.7883 1.1341 0.6951 0.00525 0.00666 10 10.207 9.000 0.3457 0.7883 1.1341 0.6951 0.00525 0.00666 11 11.341 10.000 0.3457 0.7883 1.1341 0.6951 0.00525 0.00666 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.0945E-01 8 20.00 7.0394E-01 7 30.00 4.6858E-01 6 40.00 2.7477E-01 5 50.00 1.4649E-01 4 60.00 7.3677E-02 3 70.00 3.6387E-02 2 80.00 1.8452E-02 1 87.50 1.1337E-02 1 92.50 8.1334E-03 2 100.00 5.4137E-03 3 110.00 3.4602E-03 4 120.00 2.4225E-03 5 130.00 1.8614E-03 6 140.00 1.5500E-03 7 150.00 1.3744E-03 8 160.00 1.2766E-03 9 170.00 1.2271E-03 10 180.00 1.2104E-03 Asymptotic source-free water AOP values are MUu(inf) = 0.3325 MUd(inf) = 0.8050 MU(inf) = 0.7855 R(m,inf) = 0.0072 k(inf) = 0.4401 (1/m) absorp(check) = 0.3457 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 645.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.0559E-01 1.6989E+00 1.8045E+00 4.3586E-02 1.4025E+00 0.4128 0.8256 0.7531 3.1077E-02 1 0.00 0.00 1.8162E-02 1.4452E+00 1.4633E+00 7.3279E-03 1.3679E+00 0.4035 0.9466 0.9298 5.3569E-03 2 1.13 1.00 1.4036E-02 1.0194E+00 1.0335E+00 5.3841E-03 9.3805E-01 0.3836 0.9202 0.9025 5.7397E-03 3 2.27 2.00 1.0259E-02 7.0649E-01 7.1675E-01 3.8465E-03 6.3723E-01 0.3750 0.9020 0.8837 6.0363E-03 4 3.40 3.00 7.3382E-03 4.8423E-01 4.9157E-01 2.7136E-03 4.2975E-01 0.3698 0.8875 0.8687 6.3145E-03 5 4.54 4.00 5.1866E-03 3.2908E-01 3.3427E-01 1.9012E-03 2.8806E-01 0.3666 0.8753 0.8561 6.6002E-03 6 5.67 5.00 3.6391E-03 2.2206E-01 2.2570E-01 1.3276E-03 1.9207E-01 0.3648 0.8649 0.8451 6.9119E-03 7 6.80 6.00 2.5429E-03 1.4893E-01 1.5147E-01 9.2661E-04 1.2748E-01 0.3644 0.8560 0.8355 7.2687E-03 8 7.94 7.00 1.7748E-03 9.9360E-02 1.0113E-01 6.4844E-04 8.4275E-02 0.3654 0.8482 0.8269 7.6943E-03 9 9.07 8.00 1.2410E-03 6.5990E-02 6.7231E-02 4.5639E-04 5.5523E-02 0.3678 0.8414 0.8191 8.2198E-03 10 10.21 9.00 8.7203E-04 4.3661E-02 4.4533E-02 3.2413E-04 3.6475E-02 0.3717 0.8354 0.8118 8.8865E-03 11 11.34 10.00 6.1784E-04 2.8796E-02 2.9414E-02 2.3306E-04 2.3904E-02 0.3772 0.8301 0.8047 9.7496E-03 LAYER-AVERAGE K-functions (units of 1/meter) at 645.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.25774 0.34897 0.34778 0.30823 0.37726 0.37764 0.35607 1.000 2.000 1.500 0.31347 0.36671 0.36596 0.33630 0.38667 0.38697 0.36374 2.000 3.000 2.500 0.33503 0.37774 0.37712 0.34887 0.39393 0.39421 0.36695 3.000 4.000 3.500 0.34701 0.38626 0.38566 0.35578 0.40003 0.40032 0.36711 4.000 5.000 4.500 0.35435 0.39336 0.39275 0.35917 0.40531 0.40562 0.36441 5.000 6.000 5.500 0.35844 0.39946 0.39879 0.35956 0.40989 0.41025 0.35874 6.000 7.000 6.500 0.35960 0.40473 0.40395 0.35697 0.41387 0.41430 0.34992 7.000 8.000 7.500 0.35779 0.40924 0.40832 0.35122 0.41729 0.41782 0.33786 8.000 9.000 8.500 0.35283 0.41306 0.41191 0.34219 0.42018 0.42085 0.32272 9.000 10.000 9.500 0.34459 0.41620 0.41475 0.32988 0.42257 0.42345 0.30492 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 645.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 5.460E-02 3.416E-01 3.893E-02 7.983E-01 9.318E-04 6.643E-04 1 0.00 0.00 1.726E-03 5.745E+00 1.262E-03 4.245E+00 2 1.13 1.00 1.209E-03 3.485E+00 1.289E-03 4.453E+00 3 2.27 2.00 8.405E-04 2.080E+00 1.319E-03 4.577E+00 4 3.40 3.00 5.823E-04 1.234E+00 1.355E-03 4.660E+00 5 4.54 4.00 4.034E-04 7.316E-01 1.400E-03 4.713E+00 6 5.67 5.00 2.802E-04 4.355E-01 1.459E-03 4.738E+00 7 6.80 6.00 1.957E-04 2.607E-01 1.535E-03 4.734E+00 8 7.94 7.00 1.379E-04 1.572E-01 1.637E-03 4.701E+00 9 9.07 8.00 9.839E-05 9.544E-02 1.772E-03 4.638E+00 10 10.21 9.00 7.125E-05 5.837E-02 1.953E-03 4.549E+00 11 11.34 10.00 5.253E-05 3.595E-02 2.197E-03 4.437E+00 Waveband 30 of 40 completed in 0.3 sec. * * * * * Output for wavelength band 31 (650.0 to 660.0 nm; nominal wavelength = 655.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 26.9 m at 655.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 650.0 nm to 660.0 nm: Ed(diffuse) = 3.068E-01 Ed(direct) = 1.033E+00 Ed(total) = 1.340E+00 Absorption Coefficients of Individual Components at 655.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.3710 0.0223 0.0000 0.0009 0.3941 2 1.182 1.000 0.3710 0.0223 0.0000 0.0009 0.3941 3 2.365 2.000 0.3710 0.0223 0.0000 0.0009 0.3941 4 3.547 3.000 0.3710 0.0223 0.0000 0.0009 0.3941 5 4.730 4.000 0.3710 0.0223 0.0000 0.0009 0.3941 6 5.912 5.000 0.3710 0.0223 0.0000 0.0009 0.3941 7 7.094 6.000 0.3710 0.0223 0.0000 0.0009 0.3941 8 8.277 7.000 0.3710 0.0223 0.0000 0.0009 0.3941 9 9.459 8.000 0.3710 0.0223 0.0000 0.0009 0.3941 10 10.642 9.000 0.3710 0.0223 0.0000 0.0009 0.3941 11 11.824 10.000 0.3710 0.0223 0.0000 0.0009 0.3941 Scattering Coefficients of Individual Components at 655.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0009 0.2757 0.5116 0.0000 0.7883 2 1.182 1.000 0.0009 0.2757 0.5116 0.0000 0.7883 3 2.365 2.000 0.0009 0.2757 0.5116 0.0000 0.7883 4 3.547 3.000 0.0009 0.2757 0.5116 0.0000 0.7883 5 4.730 4.000 0.0009 0.2757 0.5116 0.0000 0.7883 6 5.912 5.000 0.0009 0.2757 0.5116 0.0000 0.7883 7 7.094 6.000 0.0009 0.2757 0.5116 0.0000 0.7883 8 8.277 7.000 0.0009 0.2757 0.5116 0.0000 0.7883 9 9.459 8.000 0.0009 0.2757 0.5116 0.0000 0.7883 10 10.642 9.000 0.0009 0.2757 0.5116 0.0000 0.7883 11 11.824 10.000 0.0009 0.2757 0.5116 0.0000 0.7883 Backscattering Coefficients of Individual Components at 655.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00045 0.00387 0.00090 0.00000 0.00522 2 1.182 1.000 0.00045 0.00387 0.00090 0.00000 0.00522 3 2.365 2.000 0.00045 0.00387 0.00090 0.00000 0.00522 4 3.547 3.000 0.00045 0.00387 0.00090 0.00000 0.00522 5 4.730 4.000 0.00045 0.00387 0.00090 0.00000 0.00522 6 5.912 5.000 0.00045 0.00387 0.00090 0.00000 0.00522 7 7.094 6.000 0.00045 0.00387 0.00090 0.00000 0.00522 8 8.277 7.000 0.00045 0.00387 0.00090 0.00000 0.00522 9 9.459 8.000 0.00045 0.00387 0.00090 0.00000 0.00522 10 10.642 9.000 0.00045 0.00387 0.00090 0.00000 0.00522 11 11.824 10.000 0.00045 0.00387 0.00090 0.00000 0.00522 Summary of Inherent Optical Properties at 655.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.3941 0.7883 1.1824 0.6667 0.00522 0.00662 2 1.182 1.000 0.3941 0.7883 1.1824 0.6667 0.00522 0.00662 3 2.365 2.000 0.3941 0.7883 1.1824 0.6667 0.00522 0.00662 4 3.547 3.000 0.3941 0.7883 1.1824 0.6667 0.00522 0.00662 5 4.730 4.000 0.3941 0.7883 1.1824 0.6667 0.00522 0.00662 6 5.912 5.000 0.3941 0.7883 1.1824 0.6667 0.00522 0.00662 7 7.094 6.000 0.3941 0.7883 1.1824 0.6667 0.00522 0.00662 8 8.277 7.000 0.3941 0.7883 1.1824 0.6667 0.00522 0.00662 9 9.459 8.000 0.3941 0.7883 1.1824 0.6667 0.00522 0.00662 10 10.642 9.000 0.3941 0.7883 1.1824 0.6667 0.00522 0.00662 11 11.824 10.000 0.3941 0.7883 1.1824 0.6667 0.00522 0.00662 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.0263E-01 8 20.00 6.8483E-01 7 30.00 4.4222E-01 6 40.00 2.4986E-01 5 50.00 1.2804E-01 4 60.00 6.2023E-02 3 70.00 2.9684E-02 2 80.00 1.4715E-02 1 87.50 8.9452E-03 1 92.50 6.4013E-03 2 100.00 4.2550E-03 3 110.00 2.7233E-03 4 120.00 1.9166E-03 5 130.00 1.4830E-03 6 140.00 1.2434E-03 7 150.00 1.1087E-03 8 160.00 1.0340E-03 9 170.00 9.9620E-04 10 180.00 9.8341E-04 Asymptotic source-free water AOP values are MUu(inf) = 0.3346 MUd(inf) = 0.8155 MU(inf) = 0.7988 R(m,inf) = 0.0061 k(inf) = 0.4934 (1/m) absorp(check) = 0.3941 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 655.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 9.9745E-02 1.6216E+00 1.7214E+00 4.1214E-02 1.3402E+00 0.4132 0.8265 0.7546 3.0751E-02 1 0.00 0.00 1.5168E-02 1.3790E+00 1.3942E+00 6.1059E-03 1.3067E+00 0.4025 0.9476 0.9329 4.6727E-03 2 1.18 1.00 1.1145E-02 9.2331E-01 9.3445E-01 4.2742E-03 8.5138E-01 0.3835 0.9221 0.9065 5.0203E-03 3 2.36 2.00 7.7437E-03 6.0688E-01 6.1462E-01 2.9130E-03 5.4916E-01 0.3762 0.9049 0.8888 5.3045E-03 4 3.55 3.00 5.2812E-03 3.9443E-01 3.9971E-01 1.9671E-03 3.5152E-01 0.3725 0.8912 0.8745 5.5960E-03 5 4.73 4.00 3.5723E-03 2.5414E-01 2.5771E-01 1.3253E-03 2.2358E-01 0.3710 0.8797 0.8624 5.9277E-03 6 5.91 5.00 2.4105E-03 1.6257E-01 1.6498E-01 8.9534E-04 1.4142E-01 0.3714 0.8699 0.8518 6.3312E-03 7 7.09 6.00 1.6306E-03 1.0337E-01 1.0500E-01 6.0956E-04 8.9034E-02 0.3738 0.8613 0.8422 6.8464E-03 8 8.28 7.00 1.1111E-03 6.5385E-02 6.6496E-02 4.2030E-04 5.5830E-02 0.3783 0.8539 0.8333 7.5283E-03 9 9.46 8.00 7.6649E-04 4.1184E-02 4.1950E-02 2.9499E-04 3.4892E-02 0.3849 0.8472 0.8247 8.4542E-03 10 10.64 9.00 5.3803E-04 2.5853E-02 2.6391E-02 2.1168E-04 2.1749E-02 0.3934 0.8412 0.8161 9.7329E-03 11 11.82 10.00 3.8603E-04 1.6189E-02 1.6575E-02 1.5582E-04 1.3529E-02 0.4037 0.8357 0.8068 1.1518E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 655.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.30823 0.40114 0.40009 0.35667 0.42841 0.42876 0.40061 1.000 2.000 1.500 0.36410 0.41963 0.41895 0.38339 0.43847 0.43876 0.40554 2.000 3.000 2.500 0.38273 0.43089 0.43027 0.39263 0.44612 0.44642 0.40438 3.000 4.000 3.500 0.39093 0.43955 0.43889 0.39493 0.45251 0.45284 0.39842 4.000 5.000 4.500 0.39338 0.44679 0.44603 0.39219 0.45805 0.45845 0.38769 5.000 6.000 5.500 0.39090 0.45283 0.45190 0.38447 0.46270 0.46321 0.37190 6.000 7.000 6.500 0.38361 0.45798 0.45678 0.37176 0.46670 0.46739 0.35133 7.000 8.000 7.500 0.37127 0.46225 0.46066 0.35405 0.47004 0.47098 0.32668 8.000 9.000 8.500 0.35390 0.46562 0.46346 0.33186 0.47272 0.47401 0.29934 9.000 10.000 9.500 0.33201 0.46806 0.46509 0.30634 0.47471 0.47652 0.27116 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 655.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 5.213E-02 3.242E-01 3.890E-02 7.906E-01 7.812E-04 5.829E-04 1 0.00 0.00 1.447E-03 5.496E+00 1.108E-03 4.218E+00 2 1.18 1.00 9.697E-04 3.176E+00 1.139E-03 4.408E+00 3 2.36 2.00 6.464E-04 1.805E+00 1.177E-03 4.507E+00 4 3.55 3.00 4.314E-04 1.019E+00 1.227E-03 4.560E+00 5 4.73 4.00 2.896E-04 5.756E-01 1.295E-03 4.576E+00 6 5.91 5.00 1.966E-04 3.261E-01 1.390E-03 4.555E+00 7 7.09 6.00 1.355E-04 1.858E-01 1.522E-03 4.498E+00 8 8.28 7.00 9.536E-05 1.065E-01 1.708E-03 4.407E+00 9 9.46 8.00 6.879E-05 6.153E-02 1.971E-03 4.288E+00 10 10.64 9.00 5.099E-05 3.579E-02 2.345E-03 4.151E+00 11 11.82 10.00 3.888E-05 2.096E-02 2.874E-03 4.008E+00 Waveband 31 of 40 completed in 0.3 sec. * * * * * Output for wavelength band 32 (660.0 to 670.0 nm; nominal wavelength = 665.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 26.0 m at 665.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 660.0 nm to 670.0 nm: Ed(diffuse) = 3.167E-01 Ed(direct) = 1.076E+00 Ed(total) = 1.393E+00 Absorption Coefficients of Individual Components at 665.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.4290 0.0330 0.0000 0.0008 0.4628 2 1.251 1.000 0.4290 0.0330 0.0000 0.0008 0.4628 3 2.502 2.000 0.4290 0.0330 0.0000 0.0008 0.4628 4 3.753 3.000 0.4290 0.0330 0.0000 0.0008 0.4628 5 5.004 4.000 0.4290 0.0330 0.0000 0.0008 0.4628 6 6.255 5.000 0.4290 0.0330 0.0000 0.0008 0.4628 7 7.506 6.000 0.4290 0.0330 0.0000 0.0008 0.4628 8 8.757 7.000 0.4290 0.0330 0.0000 0.0008 0.4628 9 10.008 8.000 0.4290 0.0330 0.0000 0.0008 0.4628 10 11.259 9.000 0.4290 0.0330 0.0000 0.0008 0.4628 11 12.510 10.000 0.4290 0.0330 0.0000 0.0008 0.4628 Scattering Coefficients of Individual Components at 665.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0008 0.2757 0.5116 0.0000 0.7882 2 1.251 1.000 0.0008 0.2757 0.5116 0.0000 0.7882 3 2.502 2.000 0.0008 0.2757 0.5116 0.0000 0.7882 4 3.753 3.000 0.0008 0.2757 0.5116 0.0000 0.7882 5 5.004 4.000 0.0008 0.2757 0.5116 0.0000 0.7882 6 6.255 5.000 0.0008 0.2757 0.5116 0.0000 0.7882 7 7.506 6.000 0.0008 0.2757 0.5116 0.0000 0.7882 8 8.757 7.000 0.0008 0.2757 0.5116 0.0000 0.7882 9 10.008 8.000 0.0008 0.2757 0.5116 0.0000 0.7882 10 11.259 9.000 0.0008 0.2757 0.5116 0.0000 0.7882 11 12.510 10.000 0.0008 0.2757 0.5116 0.0000 0.7882 Backscattering Coefficients of Individual Components at 665.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00042 0.00387 0.00090 0.00000 0.00519 2 1.251 1.000 0.00042 0.00387 0.00090 0.00000 0.00519 3 2.502 2.000 0.00042 0.00387 0.00090 0.00000 0.00519 4 3.753 3.000 0.00042 0.00387 0.00090 0.00000 0.00519 5 5.004 4.000 0.00042 0.00387 0.00090 0.00000 0.00519 6 6.255 5.000 0.00042 0.00387 0.00090 0.00000 0.00519 7 7.506 6.000 0.00042 0.00387 0.00090 0.00000 0.00519 8 8.757 7.000 0.00042 0.00387 0.00090 0.00000 0.00519 9 10.008 8.000 0.00042 0.00387 0.00090 0.00000 0.00519 10 11.259 9.000 0.00042 0.00387 0.00090 0.00000 0.00519 11 12.510 10.000 0.00042 0.00387 0.00090 0.00000 0.00519 Summary of Inherent Optical Properties at 665.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.4628 0.7882 1.2510 0.6301 0.00519 0.00659 2 1.251 1.000 0.4628 0.7882 1.2510 0.6301 0.00519 0.00659 3 2.502 2.000 0.4628 0.7882 1.2510 0.6301 0.00519 0.00659 4 3.753 3.000 0.4628 0.7882 1.2510 0.6301 0.00519 0.00659 5 5.004 4.000 0.4628 0.7882 1.2510 0.6301 0.00519 0.00659 6 6.255 5.000 0.4628 0.7882 1.2510 0.6301 0.00519 0.00659 7 7.506 6.000 0.4628 0.7882 1.2510 0.6301 0.00519 0.00659 8 8.757 7.000 0.4628 0.7882 1.2510 0.6301 0.00519 0.00659 9 10.008 8.000 0.4628 0.7882 1.2510 0.6301 0.00519 0.00659 10 11.259 9.000 0.4628 0.7882 1.2510 0.6301 0.00519 0.00659 11 12.510 10.000 0.4628 0.7882 1.2510 0.6301 0.00519 0.00659 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 8.9352E-01 8 20.00 6.5996E-01 7 30.00 4.0931E-01 6 40.00 2.2027E-01 5 50.00 1.0728E-01 4 60.00 4.9595E-02 3 70.00 2.2868E-02 2 80.00 1.1056E-02 1 87.50 6.6518E-03 1 92.50 4.7546E-03 2 100.00 3.1618E-03 3 110.00 2.0311E-03 4 120.00 1.4404E-03 5 130.00 1.1248E-03 6 140.00 9.5111E-04 7 150.00 8.5385E-04 8 160.00 8.0001E-04 9 170.00 7.7288E-04 10 180.00 7.6370E-04 Asymptotic source-free water AOP values are MUu(inf) = 0.3377 MUd(inf) = 0.8280 MU(inf) = 0.8141 R(m,inf) = 0.0049 k(inf) = 0.5685 (1/m) absorp(check) = 0.4628 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 665.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.0301E-01 1.6832E+00 1.7862E+00 4.2664E-02 1.3926E+00 0.4142 0.8273 0.7557 3.0637E-02 1 0.00 0.00 1.4689E-02 1.4317E+00 1.4464E+00 6.0015E-03 1.3575E+00 0.4086 0.9482 0.9344 4.4208E-03 2 1.25 1.00 1.0298E-02 8.9076E-01 9.0106E-01 4.0650E-03 8.2290E-01 0.3947 0.9238 0.9087 4.9398E-03 3 2.50 2.00 6.9376E-03 5.4377E-01 5.5071E-01 2.7291E-03 4.9350E-01 0.3934 0.9076 0.8912 5.5301E-03 4 3.75 3.00 4.6793E-03 3.2828E-01 3.3296E-01 1.8561E-03 2.9363E-01 0.3967 0.8945 0.8763 6.3211E-03 5 5.00 4.00 3.2045E-03 1.9655E-01 1.9976E-01 1.2921E-03 1.7360E-01 0.4032 0.8832 0.8626 7.4434E-03 6 6.25 5.00 2.2485E-03 1.1694E-01 1.1919E-01 9.2719E-04 1.0210E-01 0.4124 0.8731 0.8489 9.0811E-03 7 7.51 6.00 1.6266E-03 6.9242E-02 7.0869E-02 6.8833E-04 5.9811E-02 0.4232 0.8638 0.8343 1.1508E-02 8 8.76 7.00 1.2170E-03 4.0882E-02 4.2099E-02 5.2881E-04 3.4943E-02 0.4345 0.8547 0.8175 1.5133E-02 9 10.01 8.00 9.4139E-04 2.4120E-02 2.5062E-02 4.1921E-04 2.0391E-02 0.4453 0.8454 0.7969 2.0559E-02 10 11.26 9.00 7.5047E-04 1.4260E-02 1.5010E-02 3.4123E-04 1.1907E-02 0.4547 0.8350 0.7705 2.8657E-02 11 12.51 10.00 6.1344E-04 8.4781E-03 9.0915E-03 2.8358E-04 6.9761E-03 0.4623 0.8228 0.7361 4.0651E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 665.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.35521 0.47453 0.47325 0.38960 0.50060 0.50112 0.41465 1.000 2.000 1.500 0.39496 0.49355 0.49237 0.39842 0.51130 0.51189 0.39879 2.000 3.000 2.500 0.39381 0.50467 0.50320 0.38552 0.51920 0.52000 0.37280 3.000 4.000 3.500 0.37859 0.51292 0.51090 0.36217 0.52559 0.52672 0.34004 4.000 5.000 4.500 0.35430 0.51931 0.51643 0.33189 0.53077 0.53242 0.30371 5.000 6.000 5.500 0.32376 0.52402 0.51985 0.29789 0.53477 0.53722 0.26743 6.000 7.000 6.500 0.29012 0.52692 0.52080 0.26364 0.53747 0.54115 0.23445 7.000 8.000 7.500 0.25677 0.52764 0.51868 0.23226 0.53865 0.54418 0.20685 8.000 9.000 8.500 0.22666 0.52560 0.51259 0.20580 0.53791 0.54621 0.18535 9.000 10.000 9.500 0.20162 0.51997 0.50140 0.18506 0.53467 0.54709 0.16956 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 665.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 5.421E-02 3.347E-01 3.893E-02 7.870E-01 7.922E-04 5.689E-04 1 0.00 0.00 1.468E-03 5.717E+00 1.081E-03 4.088E+00 2 1.25 1.00 9.697E-04 3.084E+00 1.178E-03 4.192E+00 3 2.50 2.00 6.508E-04 1.636E+00 1.319E-03 4.193E+00 4 3.75 3.00 4.483E-04 8.618E-01 1.527E-03 4.140E+00 5 5.00 4.00 3.191E-04 4.538E-01 1.838E-03 4.050E+00 6 6.25 5.00 2.355E-04 2.398E-01 2.306E-03 3.937E+00 7 7.51 6.00 1.802E-04 1.274E-01 3.013E-03 3.819E+00 8 8.76 7.00 1.426E-04 6.812E-02 4.080E-03 3.709E+00 9 10.01 8.00 1.159E-04 3.670E-02 5.685E-03 3.616E+00 10 11.26 9.00 9.631E-05 1.992E-02 8.088E-03 3.543E+00 11 12.51 10.00 8.129E-05 1.090E-02 1.165E-02 3.488E+00 Waveband 32 of 40 completed in 0.4 sec. * * * * * Output for wavelength band 33 (670.0 to 680.0 nm; nominal wavelength = 675.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 25.7 m at 675.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 670.0 nm to 680.0 nm: Ed(diffuse) = 3.087E-01 Ed(direct) = 1.057E+00 Ed(total) = 1.366E+00 Absorption Coefficients of Individual Components at 675.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.4480 0.0406 0.0000 0.0007 0.4893 2 1.277 1.000 0.4480 0.0406 0.0000 0.0007 0.4893 3 2.555 2.000 0.4480 0.0406 0.0000 0.0007 0.4893 4 3.832 3.000 0.4480 0.0406 0.0000 0.0007 0.4893 5 5.110 4.000 0.4480 0.0406 0.0000 0.0007 0.4893 6 6.387 5.000 0.4480 0.0406 0.0000 0.0007 0.4893 7 7.665 6.000 0.4480 0.0406 0.0000 0.0007 0.4893 8 8.942 7.000 0.4480 0.0406 0.0000 0.0007 0.4893 9 10.219 8.000 0.4480 0.0406 0.0000 0.0007 0.4893 10 11.497 9.000 0.4480 0.0406 0.0000 0.0007 0.4893 11 12.774 10.000 0.4480 0.0406 0.0000 0.0007 0.4893 Scattering Coefficients of Individual Components at 675.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0008 0.2757 0.5116 0.0000 0.7882 2 1.277 1.000 0.0008 0.2757 0.5116 0.0000 0.7882 3 2.555 2.000 0.0008 0.2757 0.5116 0.0000 0.7882 4 3.832 3.000 0.0008 0.2757 0.5116 0.0000 0.7882 5 5.110 4.000 0.0008 0.2757 0.5116 0.0000 0.7882 6 6.387 5.000 0.0008 0.2757 0.5116 0.0000 0.7882 7 7.665 6.000 0.0008 0.2757 0.5116 0.0000 0.7882 8 8.942 7.000 0.0008 0.2757 0.5116 0.0000 0.7882 9 10.219 8.000 0.0008 0.2757 0.5116 0.0000 0.7882 10 11.497 9.000 0.0008 0.2757 0.5116 0.0000 0.7882 11 12.774 10.000 0.0008 0.2757 0.5116 0.0000 0.7882 Backscattering Coefficients of Individual Components at 675.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00040 0.00387 0.00090 0.00000 0.00516 2 1.277 1.000 0.00040 0.00387 0.00090 0.00000 0.00516 3 2.555 2.000 0.00040 0.00387 0.00090 0.00000 0.00516 4 3.832 3.000 0.00040 0.00387 0.00090 0.00000 0.00516 5 5.110 4.000 0.00040 0.00387 0.00090 0.00000 0.00516 6 6.387 5.000 0.00040 0.00387 0.00090 0.00000 0.00516 7 7.665 6.000 0.00040 0.00387 0.00090 0.00000 0.00516 8 8.942 7.000 0.00040 0.00387 0.00090 0.00000 0.00516 9 10.219 8.000 0.00040 0.00387 0.00090 0.00000 0.00516 10 11.497 9.000 0.00040 0.00387 0.00090 0.00000 0.00516 11 12.774 10.000 0.00040 0.00387 0.00090 0.00000 0.00516 Summary of Inherent Optical Properties at 675.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.4893 0.7882 1.2774 0.6170 0.00516 0.00655 2 1.277 1.000 0.4893 0.7882 1.2774 0.6170 0.00516 0.00655 3 2.555 2.000 0.4893 0.7882 1.2774 0.6170 0.00516 0.00655 4 3.832 3.000 0.4893 0.7882 1.2774 0.6170 0.00516 0.00655 5 5.110 4.000 0.4893 0.7882 1.2774 0.6170 0.00516 0.00655 6 6.387 5.000 0.4893 0.7882 1.2774 0.6170 0.00516 0.00655 7 7.665 6.000 0.4893 0.7882 1.2774 0.6170 0.00516 0.00655 8 8.942 7.000 0.4893 0.7882 1.2774 0.6170 0.00516 0.00655 9 10.219 8.000 0.4893 0.7882 1.2774 0.6170 0.00516 0.00655 10 11.497 9.000 0.4893 0.7882 1.2774 0.6170 0.00516 0.00655 11 12.774 10.000 0.4893 0.7882 1.2774 0.6170 0.00516 0.00655 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 8.9015E-01 8 20.00 6.5096E-01 7 30.00 3.9777E-01 6 40.00 2.1030E-01 5 50.00 1.0057E-01 4 60.00 4.5738E-02 3 70.00 2.0826E-02 2 80.00 9.9876E-03 1 87.50 5.9900E-03 1 92.50 4.2809E-03 2 100.00 2.8475E-03 3 110.00 1.8312E-03 4 120.00 1.3016E-03 5 130.00 1.0191E-03 6 140.00 8.6384E-04 7 150.00 7.7697E-04 8 160.00 7.2892E-04 9 170.00 7.0473E-04 10 180.00 6.9654E-04 Asymptotic source-free water AOP values are MUu(inf) = 0.3386 MUd(inf) = 0.8322 MU(inf) = 0.8192 R(m,inf) = 0.0046 k(inf) = 0.5972 (1/m) absorp(check) = 0.4893 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 675.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.0258E-01 1.6496E+00 1.7521E+00 4.2830E-02 1.3660E+00 0.4175 0.8281 0.7552 3.1353E-02 1 0.00 0.00 1.8655E-02 1.4075E+00 1.4262E+00 7.9765E-03 1.3328E+00 0.4276 0.9469 0.9289 5.9847E-03 2 1.28 1.00 1.3681E-02 8.5311E-01 8.6679E-01 5.7830E-03 7.8682E-01 0.4227 0.9223 0.9011 7.3498E-03 3 2.55 2.00 9.9478E-03 5.0781E-01 5.1776E-01 4.2572E-03 4.5971E-01 0.4280 0.9053 0.8797 9.2606E-03 4 3.83 3.00 7.3973E-03 2.9939E-01 3.0679E-01 3.2269E-03 2.6670E-01 0.4362 0.8908 0.8588 1.2099E-02 5 5.11 4.00 5.6668E-03 1.7549E-01 1.8116E-01 2.5237E-03 1.5396E-01 0.4453 0.8773 0.8359 1.6392E-02 6 6.39 5.00 4.4738E-03 1.0260E-01 1.0708E-01 2.0312E-03 8.8618E-02 0.4540 0.8637 0.8087 2.2921E-02 7 7.66 6.00 3.6284E-03 6.0068E-02 6.3697E-02 1.6745E-03 5.1003E-02 0.4615 0.8491 0.7744 3.2830E-02 8 8.94 7.00 3.0082E-03 3.5383E-02 3.8391E-02 1.4060E-03 2.9449E-02 0.4674 0.8323 0.7304 4.7745E-02 9 10.22 8.00 2.5359E-03 2.1102E-02 2.3638E-02 1.1965E-03 1.7135E-02 0.4718 0.8120 0.6743 6.9825E-02 10 11.50 9.00 2.1633E-03 1.2843E-02 1.5006E-02 1.0274E-03 1.0109E-02 0.4750 0.7871 0.6052 1.0164E-01 11 12.77 10.00 1.8603E-03 8.0496E-03 9.9099E-03 8.8752E-04 6.0936E-03 0.4771 0.7570 0.5253 1.4565E-01 LAYER-AVERAGE K-functions (units of 1/meter) at 675.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.31007 0.50069 0.49795 0.32158 0.52705 0.52842 0.32292 1.000 2.000 1.500 0.31867 0.51878 0.51529 0.30631 0.53740 0.53933 0.29036 2.000 3.000 2.500 0.29623 0.52837 0.52336 0.27710 0.54449 0.54736 0.25584 3.000 4.000 3.500 0.26650 0.53414 0.52677 0.24580 0.54943 0.55379 0.22420 4.000 5.000 4.500 0.23639 0.53675 0.52585 0.21708 0.55235 0.55901 0.19792 5.000 6.000 5.500 0.20944 0.53537 0.51940 0.19314 0.55244 0.56263 0.17768 6.000 7.000 6.500 0.18747 0.52925 0.50631 0.17472 0.54925 0.56479 0.16309 7.000 8.000 7.500 0.17080 0.51685 0.48497 0.16140 0.54151 0.56497 0.15313 8.000 9.000 8.500 0.15891 0.49657 0.45438 0.15229 0.52770 0.56250 0.14668 9.000 10.000 9.500 0.15089 0.46719 0.41495 0.14640 0.50618 0.55641 0.14273 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 675.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 5.358E-02 3.262E-01 3.923E-02 7.993E-01 1.120E-03 8.196E-04 1 0.00 0.00 2.075E-03 5.614E+00 1.557E-03 3.844E+00 2 1.28 1.00 1.502E-03 2.950E+00 1.909E-03 3.850E+00 3 2.55 2.00 1.124E-03 1.523E+00 2.444E-03 3.789E+00 4 3.83 3.00 8.700E-04 7.817E-01 3.262E-03 3.709E+00 5 5.11 4.00 6.953E-04 4.010E-01 4.516E-03 3.630E+00 6 6.39 5.00 5.704E-04 2.064E-01 6.437E-03 3.561E+00 7 7.66 6.00 4.776E-04 1.070E-01 9.364E-03 3.506E+00 8 8.94 7.00 4.057E-04 5.585E-02 1.378E-02 3.466E+00 9 10.22 8.00 3.481E-04 2.945E-02 2.032E-02 3.437E+00 10 11.50 9.00 3.006E-04 1.570E-02 2.974E-02 3.418E+00 11 12.77 10.00 2.606E-04 8.489E-03 4.277E-02 3.405E+00 Waveband 33 of 40 completed in 0.4 sec. * * * * * Output for wavelength band 34 (680.0 to 690.0 nm; nominal wavelength = 685.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 25.4 m at 685.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 680.0 nm to 690.0 nm: Ed(diffuse) = 2.824E-01 Ed(direct) = 9.746E-01 Ed(total) = 1.257E+00 Absorption Coefficients of Individual Components at 685.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.4860 0.0279 0.0000 0.0006 0.5145 2 1.303 1.000 0.4860 0.0279 0.0000 0.0006 0.5145 3 2.605 2.000 0.4860 0.0279 0.0000 0.0006 0.5145 4 3.908 3.000 0.4860 0.0279 0.0000 0.0006 0.5145 5 5.211 4.000 0.4860 0.0279 0.0000 0.0006 0.5145 6 6.513 5.000 0.4860 0.0279 0.0000 0.0006 0.5145 7 7.816 6.000 0.4860 0.0279 0.0000 0.0006 0.5145 8 9.118 7.000 0.4860 0.0279 0.0000 0.0006 0.5145 9 10.421 8.000 0.4860 0.0279 0.0000 0.0006 0.5145 10 11.724 9.000 0.4860 0.0279 0.0000 0.0006 0.5145 11 13.026 10.000 0.4860 0.0279 0.0000 0.0006 0.5145 Scattering Coefficients of Individual Components at 685.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0007 0.2757 0.5116 0.0000 0.7881 2 1.303 1.000 0.0007 0.2757 0.5116 0.0000 0.7881 3 2.605 2.000 0.0007 0.2757 0.5116 0.0000 0.7881 4 3.908 3.000 0.0007 0.2757 0.5116 0.0000 0.7881 5 5.211 4.000 0.0007 0.2757 0.5116 0.0000 0.7881 6 6.513 5.000 0.0007 0.2757 0.5116 0.0000 0.7881 7 7.816 6.000 0.0007 0.2757 0.5116 0.0000 0.7881 8 9.118 7.000 0.0007 0.2757 0.5116 0.0000 0.7881 9 10.421 8.000 0.0007 0.2757 0.5116 0.0000 0.7881 10 11.724 9.000 0.0007 0.2757 0.5116 0.0000 0.7881 11 13.026 10.000 0.0007 0.2757 0.5116 0.0000 0.7881 Backscattering Coefficients of Individual Components at 685.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00037 0.00387 0.00090 0.00000 0.00514 2 1.303 1.000 0.00037 0.00387 0.00090 0.00000 0.00514 3 2.605 2.000 0.00037 0.00387 0.00090 0.00000 0.00514 4 3.908 3.000 0.00037 0.00387 0.00090 0.00000 0.00514 5 5.211 4.000 0.00037 0.00387 0.00090 0.00000 0.00514 6 6.513 5.000 0.00037 0.00387 0.00090 0.00000 0.00514 7 7.816 6.000 0.00037 0.00387 0.00090 0.00000 0.00514 8 9.118 7.000 0.00037 0.00387 0.00090 0.00000 0.00514 9 10.421 8.000 0.00037 0.00387 0.00090 0.00000 0.00514 10 11.724 9.000 0.00037 0.00387 0.00090 0.00000 0.00514 11 13.026 10.000 0.00037 0.00387 0.00090 0.00000 0.00514 Summary of Inherent Optical Properties at 685.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.5145 0.7881 1.3026 0.6050 0.00514 0.00652 2 1.303 1.000 0.5145 0.7881 1.3026 0.6050 0.00514 0.00652 3 2.605 2.000 0.5145 0.7881 1.3026 0.6050 0.00514 0.00652 4 3.908 3.000 0.5145 0.7881 1.3026 0.6050 0.00514 0.00652 5 5.211 4.000 0.5145 0.7881 1.3026 0.6050 0.00514 0.00652 6 6.513 5.000 0.5145 0.7881 1.3026 0.6050 0.00514 0.00652 7 7.816 6.000 0.5145 0.7881 1.3026 0.6050 0.00514 0.00652 8 9.118 7.000 0.5145 0.7881 1.3026 0.6050 0.00514 0.00652 9 10.421 8.000 0.5145 0.7881 1.3026 0.6050 0.00514 0.00652 10 11.724 9.000 0.5145 0.7881 1.3026 0.6050 0.00514 0.00652 11 13.026 10.000 0.5145 0.7881 1.3026 0.6050 0.00514 0.00652 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 8.8701E-01 8 20.00 6.4266E-01 7 30.00 3.8730E-01 6 40.00 2.0143E-01 5 50.00 9.4735E-02 4 60.00 4.2449E-02 3 70.00 1.9113E-02 2 80.00 9.1029E-03 1 87.50 5.4454E-03 1 92.50 3.8918E-03 2 100.00 2.5897E-03 3 110.00 1.6673E-03 4 120.00 1.1876E-03 5 130.00 9.3201E-04 6 140.00 7.9172E-04 7 150.00 7.1328E-04 8 160.00 6.6992E-04 9 170.00 6.4810E-04 10 180.00 6.4072E-04 Asymptotic source-free water AOP values are MUu(inf) = 0.3395 MUd(inf) = 0.8360 MU(inf) = 0.8238 R(m,inf) = 0.0043 k(inf) = 0.6246 (1/m) absorp(check) = 0.5145 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 685.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 9.4106E-02 1.5165E+00 1.6107E+00 3.9391E-02 1.2570E+00 0.4186 0.8289 0.7560 3.1337E-02 1 0.00 0.00 1.7154E-02 1.2950E+00 1.3122E+00 7.3753E-03 1.2265E+00 0.4299 0.9471 0.9291 6.0132E-03 2 1.30 1.00 1.2467E-02 7.6435E-01 7.7682E-01 5.3199E-03 7.0529E-01 0.4267 0.9227 0.9011 7.5429E-03 3 2.61 2.00 9.0490E-03 4.4310E-01 4.5215E-01 3.9199E-03 4.0136E-01 0.4332 0.9058 0.8790 9.7665E-03 4 3.91 3.00 6.7566E-03 2.5453E-01 2.6129E-01 2.9876E-03 2.2683E-01 0.4422 0.8911 0.8567 1.3171E-02 5 5.21 4.00 5.2182E-03 1.4550E-01 1.5072E-01 2.3558E-03 1.2761E-01 0.4514 0.8771 0.8311 1.8460E-02 6 6.51 5.00 4.1616E-03 8.3090E-02 8.7251E-02 1.9134E-03 7.1659E-02 0.4598 0.8624 0.7994 2.6701E-02 7 7.82 6.00 3.4101E-03 4.7634E-02 5.1044E-02 1.5909E-03 4.0295E-02 0.4665 0.8459 0.7583 3.9481E-02 8 9.12 7.00 2.8533E-03 2.7589E-02 3.0442E-02 1.3457E-03 2.2793E-02 0.4716 0.8262 0.7045 5.9039E-02 9 10.42 8.00 2.4237E-03 1.6279E-02 1.8702E-02 1.1518E-03 1.3050E-02 0.4752 0.8017 0.6362 8.8261E-02 10 11.72 9.00 2.0798E-03 9.8854E-03 1.1965E-02 9.9342E-04 7.6246E-03 0.4777 0.7713 0.5542 1.3029E-01 11 13.03 10.00 1.7963E-03 6.2463E-03 8.0426E-03 8.6086E-04 4.5926E-03 0.4792 0.7352 0.4640 1.8744E-01 LAYER-AVERAGE K-functions (units of 1/meter) at 685.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.31912 0.52725 0.52423 0.32667 0.55333 0.55487 0.32418 1.000 2.000 1.500 0.32045 0.54524 0.54120 0.30540 0.56375 0.56600 0.28703 2.000 3.000 2.500 0.29214 0.55436 0.54838 0.27160 0.57068 0.57412 0.24945 3.000 4.000 3.500 0.25836 0.55927 0.55023 0.23760 0.57518 0.58055 0.21649 4.000 5.000 4.500 0.22625 0.56024 0.54660 0.20798 0.57708 0.58552 0.19029 5.000 6.000 5.500 0.19917 0.55638 0.53611 0.18457 0.57568 0.58890 0.17102 6.000 7.000 6.500 0.17825 0.54614 0.51686 0.16740 0.56978 0.59035 0.15771 7.000 8.000 7.500 0.16320 0.52756 0.48718 0.15559 0.55769 0.58924 0.14903 8.000 9.000 8.500 0.15303 0.49879 0.44664 0.14791 0.53739 0.58458 0.14367 9.000 10.000 9.500 0.14654 0.45906 0.39724 0.14323 0.50694 0.57491 0.14060 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 685.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 4.937E-02 2.985E-01 3.928E-02 7.978E-01 1.044E-03 8.303E-04 1 0.00 0.00 1.934E-03 5.171E+00 1.577E-03 3.813E+00 2 1.30 1.00 1.399E-03 2.649E+00 1.983E-03 3.803E+00 3 2.61 2.00 1.050E-03 1.334E+00 2.615E-03 3.734E+00 4 3.91 3.00 8.180E-04 6.673E-01 3.606E-03 3.652E+00 5 5.21 4.00 6.587E-04 3.337E-01 5.162E-03 3.576E+00 6 6.51 5.00 5.446E-04 1.675E-01 7.600E-03 3.513E+00 7 7.82 6.00 4.590E-04 8.462E-02 1.139E-02 3.466E+00 8 9.12 7.00 3.920E-04 4.312E-02 1.720E-02 3.433E+00 9 10.42 8.00 3.377E-04 2.220E-02 2.588E-02 3.410E+00 10 11.72 9.00 2.925E-04 1.158E-02 3.837E-02 3.396E+00 11 13.03 10.00 2.542E-04 6.146E-03 5.534E-02 3.387E+00 Waveband 34 of 40 completed in 0.4 sec. * * * * * Output for wavelength band 35 (690.0 to 700.0 nm; nominal wavelength = 695.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 24.7 m at 695.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 690.0 nm to 700.0 nm: Ed(diffuse) = 2.712E-01 Ed(direct) = 9.428E-01 Ed(total) = 1.214E+00 Absorption Coefficients of Individual Components at 695.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.5590 0.0126 0.0000 0.0005 0.5721 2 1.360 1.000 0.5590 0.0126 0.0000 0.0005 0.5721 3 2.720 2.000 0.5590 0.0126 0.0000 0.0005 0.5721 4 4.081 3.000 0.5590 0.0126 0.0000 0.0005 0.5721 5 5.441 4.000 0.5590 0.0126 0.0000 0.0005 0.5721 6 6.801 5.000 0.5590 0.0126 0.0000 0.0005 0.5721 7 8.161 6.000 0.5590 0.0126 0.0000 0.0005 0.5721 8 9.521 7.000 0.5590 0.0126 0.0000 0.0005 0.5721 9 10.881 8.000 0.5590 0.0126 0.0000 0.0005 0.5721 10 12.242 9.000 0.5590 0.0126 0.0000 0.0005 0.5721 11 13.602 10.000 0.5590 0.0126 0.0000 0.0005 0.5721 Scattering Coefficients of Individual Components at 695.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0007 0.2757 0.5116 0.0000 0.7881 2 1.360 1.000 0.0007 0.2757 0.5116 0.0000 0.7881 3 2.720 2.000 0.0007 0.2757 0.5116 0.0000 0.7881 4 4.081 3.000 0.0007 0.2757 0.5116 0.0000 0.7881 5 5.441 4.000 0.0007 0.2757 0.5116 0.0000 0.7881 6 6.801 5.000 0.0007 0.2757 0.5116 0.0000 0.7881 7 8.161 6.000 0.0007 0.2757 0.5116 0.0000 0.7881 8 9.521 7.000 0.0007 0.2757 0.5116 0.0000 0.7881 9 10.881 8.000 0.0007 0.2757 0.5116 0.0000 0.7881 10 12.242 9.000 0.0007 0.2757 0.5116 0.0000 0.7881 11 13.602 10.000 0.0007 0.2757 0.5116 0.0000 0.7881 Backscattering Coefficients of Individual Components at 695.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00035 0.00387 0.00090 0.00000 0.00512 2 1.360 1.000 0.00035 0.00387 0.00090 0.00000 0.00512 3 2.720 2.000 0.00035 0.00387 0.00090 0.00000 0.00512 4 4.081 3.000 0.00035 0.00387 0.00090 0.00000 0.00512 5 5.441 4.000 0.00035 0.00387 0.00090 0.00000 0.00512 6 6.801 5.000 0.00035 0.00387 0.00090 0.00000 0.00512 7 8.161 6.000 0.00035 0.00387 0.00090 0.00000 0.00512 8 9.521 7.000 0.00035 0.00387 0.00090 0.00000 0.00512 9 10.881 8.000 0.00035 0.00387 0.00090 0.00000 0.00512 10 12.242 9.000 0.00035 0.00387 0.00090 0.00000 0.00512 11 13.602 10.000 0.00035 0.00387 0.00090 0.00000 0.00512 Summary of Inherent Optical Properties at 695.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.5721 0.7881 1.3602 0.5794 0.00512 0.00649 2 1.360 1.000 0.5721 0.7881 1.3602 0.5794 0.00512 0.00649 3 2.720 2.000 0.5721 0.7881 1.3602 0.5794 0.00512 0.00649 4 4.081 3.000 0.5721 0.7881 1.3602 0.5794 0.00512 0.00649 5 5.441 4.000 0.5721 0.7881 1.3602 0.5794 0.00512 0.00649 6 6.801 5.000 0.5721 0.7881 1.3602 0.5794 0.00512 0.00649 7 8.161 6.000 0.5721 0.7881 1.3602 0.5794 0.00512 0.00649 8 9.521 7.000 0.5721 0.7881 1.3602 0.5794 0.00512 0.00649 9 10.881 8.000 0.5721 0.7881 1.3602 0.5794 0.00512 0.00649 10 12.242 9.000 0.5721 0.7881 1.3602 0.5794 0.00512 0.00649 11 13.602 10.000 0.5721 0.7881 1.3602 0.5794 0.00512 0.00649 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 8.8008E-01 8 20.00 6.2463E-01 7 30.00 3.6516E-01 6 40.00 1.8326E-01 5 50.00 8.3151E-02 4 60.00 3.6119E-02 3 70.00 1.5902E-02 2 80.00 7.4764E-03 1 87.50 4.4545E-03 1 92.50 3.1868E-03 2 100.00 2.1247E-03 3 110.00 1.3728E-03 4 120.00 9.8326E-04 5 130.00 7.7622E-04 6 140.00 6.6281E-04 7 150.00 5.9950E-04 8 160.00 5.6455E-04 9 170.00 5.4699E-04 10 180.00 5.4106E-04 Asymptotic source-free water AOP values are MUu(inf) = 0.3418 MUd(inf) = 0.8438 MU(inf) = 0.8330 R(m,inf) = 0.0037 k(inf) = 0.6868 (1/m) absorp(check) = 0.5721 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 695.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 8.8175E-02 1.4633E+00 1.5515E+00 3.6725E-02 1.2140E+00 0.4165 0.8296 0.7588 3.0251E-02 1 0.00 0.00 1.0848E-02 1.2460E+00 1.2569E+00 4.4611E-03 1.1832E+00 0.4112 0.9496 0.9378 3.7705E-03 2 1.36 1.00 6.9973E-03 6.8981E-01 6.9681E-01 2.8182E-03 6.3933E-01 0.4028 0.9268 0.9135 4.4081E-03 3 2.72 2.00 4.4423E-03 3.7449E-01 3.7893E-01 1.8108E-03 3.4150E-01 0.4076 0.9119 0.8964 5.3025E-03 4 4.08 3.00 2.9105E-03 2.0113E-01 2.0404E-01 1.2154E-03 1.8092E-01 0.4176 0.8996 0.8808 6.7178E-03 5 5.44 4.00 2.0003E-03 1.0723E-01 1.0923E-01 8.6089E-04 9.5260E-02 0.4304 0.8884 0.8642 9.0373E-03 6 6.80 5.00 1.4510E-03 5.6899E-02 5.8350E-02 6.4397E-04 4.9927E-02 0.4438 0.8775 0.8446 1.2898E-02 7 8.16 6.00 1.1086E-03 3.0170E-02 3.1279E-02 5.0543E-04 2.6124E-02 0.4559 0.8659 0.8190 1.9347E-02 8 9.52 7.00 8.8459E-04 1.6059E-02 1.6944E-02 4.1182E-04 1.3688E-02 0.4655 0.8523 0.7835 3.0086E-02 9 10.88 8.00 7.2922E-04 8.6408E-03 9.3700E-03 3.4454E-04 7.2155E-03 0.4725 0.8350 0.7333 4.7750E-02 10 12.24 9.00 6.1473E-04 4.7466E-03 5.3613E-03 2.9329E-04 3.8536E-03 0.4771 0.8119 0.6641 7.6108E-02 11 13.60 10.00 5.2566E-04 2.6975E-03 3.2231E-03 2.5234E-04 2.1066E-03 0.4800 0.7809 0.5753 1.1979E-01 LAYER-AVERAGE K-functions (units of 1/meter) at 695.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.43844 0.59130 0.58988 0.45929 0.61553 0.61617 0.46795 1.000 2.000 1.500 0.45435 0.61085 0.60915 0.44233 0.62708 0.62797 0.42459 2.000 3.000 2.500 0.42285 0.62163 0.61905 0.39869 0.63527 0.63669 0.36896 3.000 4.000 3.500 0.37503 0.62897 0.62485 0.34487 0.64148 0.64381 0.31059 4.000 5.000 4.500 0.32105 0.63369 0.62700 0.29032 0.64604 0.64994 0.25784 5.000 6.000 5.500 0.26914 0.63442 0.62352 0.24224 0.64769 0.65425 0.21563 6.000 7.000 6.500 0.22572 0.63058 0.61304 0.20483 0.64635 0.65737 0.18531 7.000 8.000 7.500 0.19315 0.61979 0.59239 0.17837 0.64029 0.65867 0.16520 8.000 9.000 8.500 0.17079 0.59907 0.55831 0.16104 0.62721 0.65744 0.15271 9.000 10.000 9.500 0.15653 0.56511 0.50885 0.15041 0.60397 0.65240 0.14541 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 695.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 4.732E-02 2.865E-01 3.898E-02 7.760E-01 6.000E-04 4.942E-04 1 0.00 0.00 1.112E-03 4.999E+00 9.397E-04 4.012E+00 2 1.36 1.00 6.963E-04 2.417E+00 1.089E-03 4.047E+00 3 2.72 2.00 4.554E-04 1.148E+00 1.334E-03 3.976E+00 4 4.08 3.00 3.149E-04 5.415E-01 1.741E-03 3.860E+00 5 5.44 4.00 2.308E-04 2.552E-01 2.423E-03 3.730E+00 6 6.80 5.00 1.784E-04 1.206E-01 3.572E-03 3.610E+00 7 8.16 6.00 1.438E-04 5.733E-02 5.503E-03 3.516E+00 8 9.52 7.00 1.194E-04 2.744E-02 8.727E-03 3.448E+00 9 10.88 8.00 1.013E-04 1.325E-02 1.403E-02 3.403E+00 10 12.24 9.00 8.692E-05 6.460E-03 2.256E-02 3.374E+00 11 13.60 10.00 7.516E-05 3.190E-03 3.568E-02 3.357E+00 Waveband 35 of 40 completed in 0.4 sec. * * * * * Output for wavelength band 36 (700.0 to 710.0 nm; nominal wavelength = 705.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 23.3 m at 705.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 700.0 nm to 710.0 nm: Ed(diffuse) = 2.711E-01 Ed(direct) = 9.492E-01 Ed(total) = 1.220E+00 Absorption Coefficients of Individual Components at 705.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.7040 0.0062 0.0000 0.0004 0.7106 2 1.499 1.000 0.7040 0.0062 0.0000 0.0004 0.7106 3 2.997 2.000 0.7040 0.0062 0.0000 0.0004 0.7106 4 4.496 3.000 0.7040 0.0062 0.0000 0.0004 0.7106 5 5.995 4.000 0.7040 0.0062 0.0000 0.0004 0.7106 6 7.493 5.000 0.7040 0.0062 0.0000 0.0004 0.7106 7 8.992 6.000 0.7040 0.0062 0.0000 0.0004 0.7106 8 10.490 7.000 0.7040 0.0062 0.0000 0.0004 0.7106 9 11.989 8.000 0.7040 0.0062 0.0000 0.0004 0.7106 10 13.488 9.000 0.7040 0.0062 0.0000 0.0004 0.7106 11 14.986 10.000 0.7040 0.0062 0.0000 0.0004 0.7106 Scattering Coefficients of Individual Components at 705.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0007 0.2757 0.5116 0.0000 0.7880 2 1.499 1.000 0.0007 0.2757 0.5116 0.0000 0.7880 3 2.997 2.000 0.0007 0.2757 0.5116 0.0000 0.7880 4 4.496 3.000 0.0007 0.2757 0.5116 0.0000 0.7880 5 5.995 4.000 0.0007 0.2757 0.5116 0.0000 0.7880 6 7.493 5.000 0.0007 0.2757 0.5116 0.0000 0.7880 7 8.992 6.000 0.0007 0.2757 0.5116 0.0000 0.7880 8 10.490 7.000 0.0007 0.2757 0.5116 0.0000 0.7880 9 11.989 8.000 0.0007 0.2757 0.5116 0.0000 0.7880 10 13.488 9.000 0.0007 0.2757 0.5116 0.0000 0.7880 11 14.986 10.000 0.0007 0.2757 0.5116 0.0000 0.7880 Backscattering Coefficients of Individual Components at 705.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00033 0.00387 0.00090 0.00000 0.00510 2 1.499 1.000 0.00033 0.00387 0.00090 0.00000 0.00510 3 2.997 2.000 0.00033 0.00387 0.00090 0.00000 0.00510 4 4.496 3.000 0.00033 0.00387 0.00090 0.00000 0.00510 5 5.995 4.000 0.00033 0.00387 0.00090 0.00000 0.00510 6 7.493 5.000 0.00033 0.00387 0.00090 0.00000 0.00510 7 8.992 6.000 0.00033 0.00387 0.00090 0.00000 0.00510 8 10.490 7.000 0.00033 0.00387 0.00090 0.00000 0.00510 9 11.989 8.000 0.00033 0.00387 0.00090 0.00000 0.00510 10 13.488 9.000 0.00033 0.00387 0.00090 0.00000 0.00510 11 14.986 10.000 0.00033 0.00387 0.00090 0.00000 0.00510 Summary of Inherent Optical Properties at 705.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.7106 0.7880 1.4986 0.5258 0.00510 0.00647 2 1.499 1.000 0.7106 0.7880 1.4986 0.5258 0.00510 0.00647 3 2.997 2.000 0.7106 0.7880 1.4986 0.5258 0.00510 0.00647 4 4.496 3.000 0.7106 0.7880 1.4986 0.5258 0.00510 0.00647 5 5.995 4.000 0.7106 0.7880 1.4986 0.5258 0.00510 0.00647 6 7.493 5.000 0.7106 0.7880 1.4986 0.5258 0.00510 0.00647 7 8.992 6.000 0.7106 0.7880 1.4986 0.5258 0.00510 0.00647 8 10.490 7.000 0.7106 0.7880 1.4986 0.5258 0.00510 0.00647 9 11.989 8.000 0.7106 0.7880 1.4986 0.5258 0.00510 0.00647 10 13.488 9.000 0.7106 0.7880 1.4986 0.5258 0.00510 0.00647 11 14.986 10.000 0.7106 0.7880 1.4986 0.5258 0.00510 0.00647 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 8.6450E-01 8 20.00 5.8563E-01 7 30.00 3.1993E-01 6 40.00 1.4855E-01 5 50.00 6.2493E-02 4 60.00 2.5509E-02 3 70.00 1.0778E-02 2 80.00 4.9668E-03 1 87.50 2.9478E-03 1 92.50 2.1183E-03 2 100.00 1.4209E-03 3 110.00 9.2664E-04 4 120.00 6.7199E-04 5 130.00 5.3720E-04 6 140.00 4.6361E-04 7 150.00 4.2264E-04 8 160.00 4.0010E-04 9 170.00 3.8882E-04 10 180.00 3.8501E-04 Asymptotic source-free water AOP values are MUu(inf) = 0.3470 MUd(inf) = 0.8590 MU(inf) = 0.8505 R(m,inf) = 0.0029 k(inf) = 0.8355 (1/m) absorp(check) = 0.7106 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 705.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 8.7001E-02 1.4695E+00 1.5565E+00 3.6171E-02 1.2202E+00 0.4158 0.8303 0.7607 2.9643E-02 1 0.00 0.00 7.4103E-03 1.2495E+00 1.2569E+00 2.9482E-03 1.1884E+00 0.3979 0.9511 0.9432 2.4807E-03 2 1.50 1.00 3.9058E-03 5.9580E-01 5.9971E-01 1.5037E-03 5.5461E-01 0.3850 0.9309 0.9223 2.7113E-03 3 3.00 2.00 1.9896E-03 2.7830E-01 2.8029E-01 7.6795E-04 2.5553E-01 0.3860 0.9182 0.9089 3.0053E-03 4 4.50 3.00 1.0396E-03 1.2848E-01 1.2952E-01 4.0902E-04 1.1665E-01 0.3934 0.9079 0.8975 3.5065E-03 5 5.99 4.00 5.7534E-04 5.8794E-02 5.9369E-02 2.3438E-04 5.2852E-02 0.4074 0.8989 0.8863 4.4348E-03 6 7.49 5.00 3.4704E-04 2.6734E-02 2.7081E-02 1.4801E-04 2.3810E-02 0.4265 0.8906 0.8737 6.2163E-03 7 8.99 6.00 2.3170E-04 1.2115E-02 1.2347E-02 1.0353E-04 1.0687E-02 0.4468 0.8821 0.8572 9.6878E-03 8 10.49 7.00 1.7015E-04 5.4960E-03 5.6662E-03 7.8954E-05 4.7936E-03 0.4640 0.8722 0.8321 1.6471E-02 9 11.99 8.00 1.3437E-04 2.5148E-03 2.6492E-03 6.3957E-05 2.1592E-03 0.4760 0.8586 0.7909 2.9621E-02 10 13.49 9.00 1.1121E-04 1.1757E-03 1.2869E-03 5.3737E-05 9.8499E-04 0.4832 0.8378 0.7236 5.4556E-02 11 14.99 10.00 9.4545E-05 5.7333E-04 6.6788E-04 4.6057E-05 4.6177E-04 0.4871 0.8054 0.6224 9.9740E-02 LAYER-AVERAGE K-functions (units of 1/meter) at 705.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.64040 0.74060 0.73998 0.67326 0.76215 0.76238 0.69589 1.000 2.000 1.500 0.67455 0.76122 0.76063 0.67196 0.77492 0.77522 0.66393 2.000 3.000 2.500 0.64911 0.77294 0.77201 0.62997 0.78420 0.78470 0.60071 3.000 4.000 3.500 0.59161 0.78171 0.78003 0.55679 0.79165 0.79258 0.50917 4.000 5.000 4.500 0.50551 0.78809 0.78493 0.45968 0.79739 0.79918 0.40359 5.000 6.000 5.500 0.40401 0.79152 0.78547 0.35739 0.80108 0.80458 0.30653 6.000 7.000 6.500 0.30876 0.79040 0.77886 0.27102 0.80174 0.80861 0.23389 7.000 8.000 7.500 0.23611 0.78182 0.76025 0.21066 0.79755 0.81101 0.18770 8.000 9.000 8.500 0.18916 0.76036 0.72203 0.17412 0.78486 0.81089 0.16158 9.000 10.000 9.500 0.16233 0.71814 0.65588 0.15422 0.75757 0.80654 0.14807 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 705.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 4.739E-02 2.864E-01 3.884E-02 7.632E-01 3.834E-04 3.142E-04 1 0.00 0.00 7.104E-04 5.029E+00 5.978E-04 4.150E+00 2 1.50 1.00 3.542E-04 2.115E+00 6.387E-04 4.245E+00 3 3.00 2.00 1.824E-04 8.738E-01 7.137E-04 4.211E+00 4 4.50 3.00 1.000E-04 3.581E-01 8.575E-04 4.089E+00 5 5.99 4.00 6.011E-05 1.466E-01 1.137E-03 3.899E+00 6 7.49 5.00 4.015E-05 6.013E-02 1.686E-03 3.686E+00 7 8.99 6.00 2.955E-05 2.478E-02 2.765E-03 3.504E+00 8 10.49 7.00 2.339E-05 1.027E-02 4.879E-03 3.376E+00 9 11.99 8.00 1.938E-05 4.289E-03 8.978E-03 3.299E+00 10 13.49 9.00 1.649E-05 1.807E-03 1.674E-02 3.258E+00 11 14.99 10.00 1.422E-05 7.703E-04 3.080E-02 3.238E+00 Waveband 36 of 40 completed in 0.5 sec. * * * * * Output for wavelength band 37 (710.0 to 720.0 nm; nominal wavelength = 715.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 21.1 m at 715.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 710.0 nm to 720.0 nm: Ed(diffuse) = 2.479E-01 Ed(direct) = 8.737E-01 Ed(total) = 1.122E+00 Absorption Coefficients of Individual Components at 715.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 1.0070 0.0005 0.0000 0.0004 1.0078 2 1.796 1.000 1.0070 0.0005 0.0000 0.0004 1.0078 3 3.592 2.000 1.0070 0.0005 0.0000 0.0004 1.0078 4 5.387 3.000 1.0070 0.0005 0.0000 0.0004 1.0078 5 7.183 4.000 1.0070 0.0005 0.0000 0.0004 1.0078 6 8.979 5.000 1.0070 0.0005 0.0000 0.0004 1.0078 7 10.775 6.000 1.0070 0.0005 0.0000 0.0004 1.0078 8 12.571 7.000 1.0070 0.0005 0.0000 0.0004 1.0078 9 14.367 8.000 1.0070 0.0005 0.0000 0.0004 1.0078 10 16.162 9.000 1.0070 0.0005 0.0000 0.0004 1.0078 11 17.958 10.000 1.0070 0.0005 0.0000 0.0004 1.0078 Scattering Coefficients of Individual Components at 715.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0006 0.2757 0.5116 0.0000 0.7880 2 1.796 1.000 0.0006 0.2757 0.5116 0.0000 0.7880 3 3.592 2.000 0.0006 0.2757 0.5116 0.0000 0.7880 4 5.387 3.000 0.0006 0.2757 0.5116 0.0000 0.7880 5 7.183 4.000 0.0006 0.2757 0.5116 0.0000 0.7880 6 8.979 5.000 0.0006 0.2757 0.5116 0.0000 0.7880 7 10.775 6.000 0.0006 0.2757 0.5116 0.0000 0.7880 8 12.571 7.000 0.0006 0.2757 0.5116 0.0000 0.7880 9 14.367 8.000 0.0006 0.2757 0.5116 0.0000 0.7880 10 16.162 9.000 0.0006 0.2757 0.5116 0.0000 0.7880 11 17.958 10.000 0.0006 0.2757 0.5116 0.0000 0.7880 Backscattering Coefficients of Individual Components at 715.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00031 0.00387 0.00090 0.00000 0.00508 2 1.796 1.000 0.00031 0.00387 0.00090 0.00000 0.00508 3 3.592 2.000 0.00031 0.00387 0.00090 0.00000 0.00508 4 5.387 3.000 0.00031 0.00387 0.00090 0.00000 0.00508 5 7.183 4.000 0.00031 0.00387 0.00090 0.00000 0.00508 6 8.979 5.000 0.00031 0.00387 0.00090 0.00000 0.00508 7 10.775 6.000 0.00031 0.00387 0.00090 0.00000 0.00508 8 12.571 7.000 0.00031 0.00387 0.00090 0.00000 0.00508 9 14.367 8.000 0.00031 0.00387 0.00090 0.00000 0.00508 10 16.162 9.000 0.00031 0.00387 0.00090 0.00000 0.00508 11 17.958 10.000 0.00031 0.00387 0.00090 0.00000 0.00508 Summary of Inherent Optical Properties at 715.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 1.0078 0.7880 1.7958 0.4388 0.00508 0.00644 2 1.796 1.000 1.0078 0.7880 1.7958 0.4388 0.00508 0.00644 3 3.592 2.000 1.0078 0.7880 1.7958 0.4388 0.00508 0.00644 4 5.387 3.000 1.0078 0.7880 1.7958 0.4388 0.00508 0.00644 5 7.183 4.000 1.0078 0.7880 1.7958 0.4388 0.00508 0.00644 6 8.979 5.000 1.0078 0.7880 1.7958 0.4388 0.00508 0.00644 7 10.775 6.000 1.0078 0.7880 1.7958 0.4388 0.00508 0.00644 8 12.571 7.000 1.0078 0.7880 1.7958 0.4388 0.00508 0.00644 9 14.367 8.000 1.0078 0.7880 1.7958 0.4388 0.00508 0.00644 10 16.162 9.000 1.0078 0.7880 1.7958 0.4388 0.00508 0.00644 11 17.958 10.000 1.0078 0.7880 1.7958 0.4388 0.00508 0.00644 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 8.3482E-01 8 20.00 5.1695E-01 7 30.00 2.4892E-01 6 40.00 1.0065E-01 5 50.00 3.7346E-02 4 60.00 1.3902E-02 3 70.00 5.5907E-03 2 80.00 2.5393E-03 1 87.50 1.5124E-03 1 92.50 1.0989E-03 2 100.00 7.4631E-04 3 110.00 4.9492E-04 4 120.00 3.6620E-04 5 130.00 2.9839E-04 6 140.00 2.6149E-04 7 150.00 2.4102E-04 8 160.00 2.2983E-04 9 170.00 2.2426E-04 10 180.00 2.2239E-04 Asymptotic source-free water AOP values are MUu(inf) = 0.3558 MUd(inf) = 0.8813 MU(inf) = 0.8756 R(m,inf) = 0.0019 k(inf) = 1.1511 (1/m) absorp(check) = 1.0078 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 715.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 7.8980E-02 1.3496E+00 1.4286E+00 3.2828E-02 1.1215E+00 0.4157 0.8310 0.7621 2.9271E-02 1 0.00 0.00 4.6100E-03 1.1466E+00 1.1512E+00 1.8134E-03 1.0919E+00 0.3934 0.9523 0.9469 1.6608E-03 2 1.80 1.00 1.7329E-03 3.9818E-01 3.9991E-01 6.6365E-04 3.7269E-01 0.3830 0.9360 0.9303 1.7807E-03 3 3.59 2.00 6.3989E-04 1.3547E-01 1.3611E-01 2.4750E-04 1.2546E-01 0.3868 0.9261 0.9199 1.9728E-03 4 5.39 3.00 2.5327E-04 4.5551E-02 4.5804E-02 1.0161E-04 4.1805E-02 0.4012 0.9178 0.9105 2.4306E-03 5 7.18 4.00 1.1674E-04 1.5182E-02 1.5299E-02 5.0009E-05 1.3819E-02 0.4284 0.9102 0.9000 3.6190E-03 6 8.98 5.00 6.6974E-05 5.0369E-03 5.1038E-03 3.0833E-05 4.5444E-03 0.4604 0.9022 0.8844 6.7849E-03 7 10.77 6.00 4.7056E-05 1.6768E-03 1.7238E-03 2.2772E-05 1.4946E-03 0.4839 0.8914 0.8538 1.5236E-02 8 12.57 7.00 3.7475E-05 5.7046E-04 6.0794E-04 1.8583E-05 4.9726E-04 0.4959 0.8717 0.7874 3.7370E-02 9 14.37 8.00 3.1624E-05 2.0680E-04 2.3843E-04 1.5830E-05 1.7203E-04 0.5006 0.8318 0.6551 9.2018E-02 10 16.16 9.00 2.7283E-05 8.6171E-05 1.1345E-04 1.3694E-05 6.5535E-05 0.5019 0.7605 0.4569 2.0896E-01 11 17.96 10.00 2.3698E-05 4.4790E-05 6.8488E-05 1.1898E-05 2.9982E-05 0.5021 0.6694 0.2640 3.9684E-01 LAYER-AVERAGE K-functions (units of 1/meter) at 715.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 0.97847 1.05765 1.05732 1.00517 1.07488 1.07500 1.02059 1.000 2.000 1.500 0.99622 1.07813 1.07776 0.98634 1.08878 1.08897 0.96457 2.000 3.000 2.500 0.92686 1.08994 1.08911 0.89026 1.09897 1.09942 0.83017 3.000 4.000 3.500 0.77450 1.09870 1.09658 0.70896 1.10699 1.10818 0.61846 4.000 5.000 4.500 0.55563 1.10335 1.09780 0.48361 1.11212 1.11530 0.40124 5.000 6.000 5.500 0.35296 1.09992 1.08545 0.30307 1.11203 1.12058 0.25498 6.000 7.000 6.500 0.22768 1.07817 1.04222 0.20330 1.10050 1.12323 0.18331 7.000 8.000 7.500 0.16974 1.01468 0.93601 0.16035 1.06147 1.11992 0.15462 8.000 9.000 8.500 0.14767 0.87544 0.74267 0.14489 0.96507 1.10295 0.14490 9.000 10.000 9.500 0.14088 0.65434 0.50474 0.14064 0.78200 1.05315 0.14261 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 715.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 4.348E-02 2.619E-01 3.877E-02 7.550E-01 2.356E-04 2.101E-04 1 0.00 0.00 4.366E-04 4.626E+00 3.999E-04 4.153E+00 2 1.80 1.00 1.574E-04 1.444E+00 4.222E-04 4.217E+00 3 3.59 2.00 5.998E-05 4.418E-01 4.781E-04 4.127E+00 4 5.39 3.00 2.615E-05 1.340E-01 6.255E-04 3.886E+00 5 7.18 4.00 1.409E-05 4.055E-02 1.019E-03 3.550E+00 6 8.98 5.00 9.432E-06 1.229E-02 2.075E-03 3.269E+00 7 10.77 6.00 7.309E-06 3.738E-03 4.890E-03 3.116E+00 8 12.57 7.00 6.085E-06 1.145E-03 1.224E-02 3.054E+00 9 14.37 8.00 5.213E-06 3.551E-04 3.030E-02 3.037E+00 10 16.16 9.00 4.510E-06 1.130E-04 6.882E-02 3.037E+00 11 17.96 10.00 3.910E-06 3.822E-05 1.304E-01 3.043E+00 Waveband 37 of 40 completed in 0.5 sec. * * * * * Output for wavelength band 38 (720.0 to 730.0 nm; nominal wavelength = 725.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 18.8 m at 725.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 720.0 nm to 730.0 nm: Ed(diffuse) = 2.241E-01 Ed(direct) = 7.954E-01 Ed(total) = 1.020E+00 Absorption Coefficients of Individual Components at 725.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 1.4890 0.0000 0.0000 0.0003 1.4893 2 2.277 1.000 1.4890 0.0000 0.0000 0.0003 1.4893 3 4.555 2.000 1.4890 0.0000 0.0000 0.0003 1.4893 4 6.832 3.000 1.4890 0.0000 0.0000 0.0003 1.4893 5 9.109 4.000 1.4890 0.0000 0.0000 0.0003 1.4893 6 11.386 5.000 1.4890 0.0000 0.0000 0.0003 1.4893 7 13.664 6.000 1.4890 0.0000 0.0000 0.0003 1.4893 8 15.941 7.000 1.4890 0.0000 0.0000 0.0003 1.4893 9 18.218 8.000 1.4890 0.0000 0.0000 0.0003 1.4893 10 20.495 9.000 1.4890 0.0000 0.0000 0.0003 1.4893 11 22.773 10.000 1.4890 0.0000 0.0000 0.0003 1.4893 Scattering Coefficients of Individual Components at 725.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0006 0.2757 0.5116 0.0000 0.7879 2 2.277 1.000 0.0006 0.2757 0.5116 0.0000 0.7879 3 4.555 2.000 0.0006 0.2757 0.5116 0.0000 0.7879 4 6.832 3.000 0.0006 0.2757 0.5116 0.0000 0.7879 5 9.109 4.000 0.0006 0.2757 0.5116 0.0000 0.7879 6 11.386 5.000 0.0006 0.2757 0.5116 0.0000 0.7879 7 13.664 6.000 0.0006 0.2757 0.5116 0.0000 0.7879 8 15.941 7.000 0.0006 0.2757 0.5116 0.0000 0.7879 9 18.218 8.000 0.0006 0.2757 0.5116 0.0000 0.7879 10 20.495 9.000 0.0006 0.2757 0.5116 0.0000 0.7879 11 22.773 10.000 0.0006 0.2757 0.5116 0.0000 0.7879 Backscattering Coefficients of Individual Components at 725.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00029 0.00387 0.00090 0.00000 0.00506 2 2.277 1.000 0.00029 0.00387 0.00090 0.00000 0.00506 3 4.555 2.000 0.00029 0.00387 0.00090 0.00000 0.00506 4 6.832 3.000 0.00029 0.00387 0.00090 0.00000 0.00506 5 9.109 4.000 0.00029 0.00387 0.00090 0.00000 0.00506 6 11.386 5.000 0.00029 0.00387 0.00090 0.00000 0.00506 7 13.664 6.000 0.00029 0.00387 0.00090 0.00000 0.00506 8 15.941 7.000 0.00029 0.00387 0.00090 0.00000 0.00506 9 18.218 8.000 0.00029 0.00387 0.00090 0.00000 0.00506 10 20.495 9.000 0.00029 0.00387 0.00090 0.00000 0.00506 11 22.773 10.000 0.00029 0.00387 0.00090 0.00000 0.00506 Summary of Inherent Optical Properties at 725.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 1.4893 0.7879 2.2773 0.3460 0.00506 0.00642 2 2.277 1.000 1.4893 0.7879 2.2773 0.3460 0.00506 0.00642 3 4.555 2.000 1.4893 0.7879 2.2773 0.3460 0.00506 0.00642 4 6.832 3.000 1.4893 0.7879 2.2773 0.3460 0.00506 0.00642 5 9.109 4.000 1.4893 0.7879 2.2773 0.3460 0.00506 0.00642 6 11.386 5.000 1.4893 0.7879 2.2773 0.3460 0.00506 0.00642 7 13.664 6.000 1.4893 0.7879 2.2773 0.3460 0.00506 0.00642 8 15.941 7.000 1.4893 0.7879 2.2773 0.3460 0.00506 0.00642 9 18.218 8.000 1.4893 0.7879 2.2773 0.3460 0.00506 0.00642 10 20.495 9.000 1.4893 0.7879 2.2773 0.3460 0.00506 0.00642 11 22.773 10.000 1.4893 0.7879 2.2773 0.3460 0.00506 0.00642 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 7.9369E-01 8 20.00 4.3321E-01 7 30.00 1.7642E-01 6 40.00 6.0196E-02 5 50.00 1.9474E-02 4 60.00 6.6844E-03 3 70.00 2.6205E-03 2 80.00 1.1977E-03 1 87.50 7.2223E-04 1 92.50 5.3195E-04 2 100.00 3.6635E-04 3 110.00 2.4738E-04 4 120.00 1.8685E-04 5 130.00 1.5508E-04 6 140.00 1.3782E-04 7 150.00 1.2827E-04 8 160.00 1.2309E-04 9 170.00 1.2055E-04 10 180.00 1.1969E-04 Asymptotic source-free water AOP values are MUu(inf) = 0.3647 MUd(inf) = 0.9029 MU(inf) = 0.8992 R(m,inf) = 0.0012 k(inf) = 1.6563 (1/m) absorp(check) = 1.4893 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 725.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 7.1113E-02 1.2259E+00 1.2970E+00 2.9576E-02 1.0195E+00 0.4159 0.8317 0.7633 2.9010E-02 1 0.00 0.00 2.8070E-03 1.0411E+00 1.0439E+00 1.0994E-03 9.9227E-01 0.3917 0.9531 0.9495 1.1079E-03 2 2.28 1.00 6.3916E-04 2.1714E-01 2.1778E-01 2.4852E-04 2.0449E-01 0.3888 0.9418 0.9379 1.2153E-03 3 4.55 2.00 1.6082E-04 4.4488E-02 4.4649E-02 6.5728E-05 4.1567E-02 0.4087 0.9343 0.9295 1.5813E-03 4 6.83 3.00 5.7898E-05 9.0233E-03 9.0812E-03 2.6205E-05 8.3641E-03 0.4526 0.9269 0.9181 3.1331E-03 5 9.11 4.00 3.3692E-05 1.8290E-03 1.8627E-03 1.6530E-05 1.6763E-03 0.4906 0.9166 0.8911 9.8608E-03 6 11.39 5.00 2.5975E-05 3.8365E-04 4.0963E-04 1.3116E-05 3.4184E-04 0.5049 0.8910 0.8025 3.8369E-02 7 13.66 6.00 2.1897E-05 9.3967E-05 1.1586E-04 1.1123E-05 7.6710E-05 0.5080 0.8164 0.5661 1.4500E-01 8 15.94 7.00 1.8829E-05 3.4446E-05 5.3274E-05 9.5640E-06 2.3386E-05 0.5080 0.6789 0.2594 4.0897E-01 9 18.22 8.00 1.6223E-05 2.0610E-05 3.6834E-05 8.2299E-06 1.1828E-05 0.5073 0.5739 0.0977 6.9582E-01 10 20.50 9.00 1.3953E-05 1.5986E-05 2.9939E-05 7.0681E-06 8.5652E-06 0.5066 0.5358 0.0500 8.2521E-01 11 22.77 10.00 1.1971E-05 1.3395E-05 2.5366E-05 6.0558E-06 7.0426E-06 0.5059 0.5258 0.0389 8.5989E-01 LAYER-AVERAGE K-functions (units of 1/meter) at 725.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 1.47971 1.56749 1.56724 1.48697 1.57946 1.57956 1.47670 1.000 2.000 1.500 1.37985 1.58531 1.58464 1.33001 1.59323 1.59360 1.24751 2.000 3.000 2.500 1.02162 1.59541 1.59262 0.91955 1.60335 1.60491 0.78565 3.000 4.000 3.500 0.54144 1.59607 1.58421 0.46078 1.60734 1.61411 0.37797 4.000 5.000 4.500 0.26010 1.56177 1.51451 0.23135 1.59003 1.61925 0.20798 5.000 6.000 5.500 0.17078 1.40679 1.26282 0.16479 1.49430 1.61183 0.16294 6.000 7.000 6.500 0.15099 1.00357 0.77697 0.15104 1.18791 1.55714 0.15428 7.000 8.000 7.500 0.14892 0.51358 0.36903 0.15023 0.68168 1.34593 0.15424 8.000 9.000 8.500 0.15074 0.25409 0.20725 0.15218 0.32274 0.87680 0.15598 9.000 10.000 9.500 0.15322 0.17681 0.16575 0.15457 0.19573 0.41685 0.15798 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 725.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 3.949E-02 2.369E-01 3.874E-02 7.489E-01 1.437E-04 1.410E-04 1 0.00 0.00 2.664E-04 4.209E+00 2.685E-04 4.127E+00 2 2.28 1.00 6.084E-05 8.098E-01 2.975E-04 4.085E+00 3 4.55 2.00 1.748E-05 1.525E-01 4.204E-04 3.761E+00 4 6.83 3.00 7.966E-06 2.841E-02 9.524E-04 3.290E+00 5 9.11 4.00 5.459E-06 5.274E-03 3.256E-03 3.028E+00 6 11.39 5.00 4.434E-06 9.818E-04 1.297E-02 2.958E+00 7 13.66 6.00 3.767E-06 1.859E-04 4.911E-02 2.953E+00 8 15.94 7.00 3.228E-06 3.768E-05 1.380E-01 2.962E+00 9 18.22 8.00 2.767E-06 9.682E-06 2.339E-01 2.974E+00 10 20.50 9.00 2.367E-06 4.082E-06 2.764E-01 2.986E+00 11 22.77 10.00 2.021E-06 2.706E-06 2.870E-01 2.996E+00 Waveband 38 of 40 completed in 0.7 sec. * * * * * Output for wavelength band 39 (730.0 to 740.0 nm; nominal wavelength = 735.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 16.9 m at 735.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 730.0 nm to 740.0 nm: Ed(diffuse) = 2.426E-01 Ed(direct) = 8.663E-01 Ed(total) = 1.109E+00 Absorption Coefficients of Individual Components at 735.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 2.1289 0.0000 0.0000 0.0003 2.1292 2 2.917 1.000 2.1289 0.0000 0.0000 0.0003 2.1292 3 5.834 2.000 2.1289 0.0000 0.0000 0.0003 2.1292 4 8.751 3.000 2.1289 0.0000 0.0000 0.0003 2.1292 5 11.668 4.000 2.1289 0.0000 0.0000 0.0003 2.1292 6 14.585 5.000 2.1289 0.0000 0.0000 0.0003 2.1292 7 17.503 6.000 2.1289 0.0000 0.0000 0.0003 2.1292 8 20.420 7.000 2.1289 0.0000 0.0000 0.0003 2.1292 9 23.337 8.000 2.1289 0.0000 0.0000 0.0003 2.1292 10 26.254 9.000 2.1289 0.0000 0.0000 0.0003 2.1292 11 29.171 10.000 2.1289 0.0000 0.0000 0.0003 2.1292 Scattering Coefficients of Individual Components at 735.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0005 0.2757 0.5116 0.0000 0.7879 2 2.917 1.000 0.0005 0.2757 0.5116 0.0000 0.7879 3 5.834 2.000 0.0005 0.2757 0.5116 0.0000 0.7879 4 8.751 3.000 0.0005 0.2757 0.5116 0.0000 0.7879 5 11.668 4.000 0.0005 0.2757 0.5116 0.0000 0.7879 6 14.585 5.000 0.0005 0.2757 0.5116 0.0000 0.7879 7 17.503 6.000 0.0005 0.2757 0.5116 0.0000 0.7879 8 20.420 7.000 0.0005 0.2757 0.5116 0.0000 0.7879 9 23.337 8.000 0.0005 0.2757 0.5116 0.0000 0.7879 10 26.254 9.000 0.0005 0.2757 0.5116 0.0000 0.7879 11 29.171 10.000 0.0005 0.2757 0.5116 0.0000 0.7879 Backscattering Coefficients of Individual Components at 735.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00027 0.00387 0.00090 0.00000 0.00504 2 2.917 1.000 0.00027 0.00387 0.00090 0.00000 0.00504 3 5.834 2.000 0.00027 0.00387 0.00090 0.00000 0.00504 4 8.751 3.000 0.00027 0.00387 0.00090 0.00000 0.00504 5 11.668 4.000 0.00027 0.00387 0.00090 0.00000 0.00504 6 14.585 5.000 0.00027 0.00387 0.00090 0.00000 0.00504 7 17.503 6.000 0.00027 0.00387 0.00090 0.00000 0.00504 8 20.420 7.000 0.00027 0.00387 0.00090 0.00000 0.00504 9 23.337 8.000 0.00027 0.00387 0.00090 0.00000 0.00504 10 26.254 9.000 0.00027 0.00387 0.00090 0.00000 0.00504 11 29.171 10.000 0.00027 0.00387 0.00090 0.00000 0.00504 Summary of Inherent Optical Properties at 735.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 2.1292 0.7879 2.9171 0.2701 0.00504 0.00640 2 2.917 1.000 2.1292 0.7879 2.9171 0.2701 0.00504 0.00640 3 5.834 2.000 2.1292 0.7879 2.9171 0.2701 0.00504 0.00640 4 8.751 3.000 2.1292 0.7879 2.9171 0.2701 0.00504 0.00640 5 11.668 4.000 2.1292 0.7879 2.9171 0.2701 0.00504 0.00640 6 14.585 5.000 2.1292 0.7879 2.9171 0.2701 0.00504 0.00640 7 17.503 6.000 2.1292 0.7879 2.9171 0.2701 0.00504 0.00640 8 20.420 7.000 2.1292 0.7879 2.9171 0.2701 0.00504 0.00640 9 23.337 8.000 2.1292 0.7879 2.9171 0.2701 0.00504 0.00640 10 26.254 9.000 2.1292 0.7879 2.9171 0.2701 0.00504 0.00640 11 29.171 10.000 2.1292 0.7879 2.9171 0.2701 0.00504 0.00640 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 7.4710E-01 8 20.00 3.5294E-01 7 30.00 1.2036E-01 6 40.00 3.4906E-02 5 50.00 1.0108E-02 4 60.00 3.3166E-03 3 70.00 1.3044E-03 2 80.00 6.0714E-04 1 87.50 3.7090E-04 1 92.50 2.7616E-04 2 100.00 1.9226E-04 3 110.00 1.3177E-04 4 120.00 1.0118E-04 5 130.00 8.5156E-05 6 140.00 7.6443E-05 7 150.00 7.1637E-05 8 160.00 6.9052E-05 9 170.00 6.7797E-05 10 180.00 6.7380E-05 Asymptotic source-free water AOP values are MUu(inf) = 0.3718 MUd(inf) = 0.9198 MU(inf) = 0.9172 R(m,inf) = 0.0008 k(inf) = 2.3214 (1/m) absorp(check) = 2.1292 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 735.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 7.6800E-02 1.3324E+00 1.4092E+00 3.1975E-02 1.1089E+00 0.4163 0.8323 0.7642 2.8835E-02 1 0.00 0.00 2.1143E-03 1.1315E+00 1.1336E+00 8.2486E-04 1.0791E+00 0.3901 0.9537 0.9512 7.6441E-04 2 2.92 1.00 2.5227E-04 1.2041E-01 1.2066E-01 9.9999E-05 1.1405E-01 0.3964 0.9472 0.9444 8.7681E-04 3 5.83 2.00 4.6114E-05 1.2657E-02 1.2703E-02 2.0570E-05 1.1914E-02 0.4461 0.9413 0.9362 1.7266E-03 4 8.75 3.00 2.1470E-05 1.3295E-03 1.3510E-03 1.0721E-05 1.2376E-03 0.4994 0.9309 0.9082 8.6624E-03 5 11.67 4.00 1.6419E-05 1.5155E-04 1.6797E-04 8.4004E-06 1.3432E-04 0.5116 0.8863 0.7497 6.2540E-02 6 14.59 5.00 1.3734E-05 2.8459E-05 4.2194E-05 7.0352E-06 2.0460E-05 0.5122 0.7189 0.3182 3.4386E-01 7 17.50 6.00 1.1586E-05 1.3946E-05 2.5532E-05 5.9242E-06 7.8699E-06 0.5113 0.5643 0.0762 7.5277E-01 8 20.42 7.00 9.7559E-06 1.0743E-05 2.0499E-05 4.9790E-06 5.6841E-06 0.5104 0.5291 0.0344 8.7596E-01 9 23.34 8.00 8.1929E-06 8.9305E-06 1.7123E-05 4.1742E-06 4.6784E-06 0.5095 0.5239 0.0294 8.9223E-01 10 26.25 9.00 6.8637E-06 7.4785E-06 1.4342E-05 3.4917E-06 3.9089E-06 0.5087 0.5227 0.0291 8.9326E-01 11 29.17 10.00 5.7378E-06 6.2560E-06 1.1994E-05 2.9151E-06 3.2661E-06 0.5080 0.5221 0.0293 8.9254E-01 LAYER-AVERAGE K-functions (units of 1/meter) at 735.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 2.12599 2.24042 2.24019 2.11005 2.24724 2.24735 2.06718 1.000 2.000 1.500 1.69938 2.25268 2.25114 1.58135 2.25895 2.25980 1.41060 2.000 3.000 2.500 0.76446 2.25339 2.24101 0.65161 2.26447 2.27144 0.53117 3.000 4.000 3.500 0.26824 2.17165 2.08481 0.24392 2.22074 2.27662 0.22541 4.000 5.000 4.500 0.17850 1.67244 1.38150 0.17736 1.88178 2.23858 0.18036 5.000 6.000 5.500 0.17011 0.71330 0.50235 0.17187 0.95540 1.93147 0.17707 6.000 7.000 6.500 0.17193 0.26092 0.21955 0.17382 0.32537 1.01506 0.17873 7.000 8.000 7.500 0.17460 0.18479 0.17993 0.17630 0.19471 0.33536 0.18069 8.000 9.000 8.500 0.17703 0.17745 0.17725 0.17854 0.17969 0.18930 0.18242 9.000 10.000 9.500 0.17916 0.17848 0.17881 0.18050 0.17968 0.17288 0.18395 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 735.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 4.295E-02 2.563E-01 3.873E-02 7.445E-01 1.081E-04 9.747E-05 1 0.00 0.00 2.003E-04 4.582E+00 1.856E-04 4.118E+00 2 2.92 1.00 2.535E-05 4.635E-01 2.223E-04 3.945E+00 3 5.83 2.00 6.185E-06 4.576E-02 5.191E-04 3.326E+00 4 8.75 3.00 3.636E-06 4.465E-03 2.938E-03 2.948E+00 5 11.67 4.00 2.902E-06 4.355E-04 2.161E-02 2.894E+00 6 14.59 5.00 2.423E-06 4.460E-05 1.184E-01 2.903E+00 7 17.50 6.00 2.030E-06 6.423E-06 2.580E-01 2.918E+00 8 20.42 7.00 1.698E-06 2.392E-06 2.987E-01 2.933E+00 9 23.34 8.00 1.417E-06 1.712E-06 3.029E-01 2.945E+00 10 26.25 9.00 1.181E-06 1.401E-06 3.021E-01 2.957E+00 11 29.17 10.00 9.825E-07 1.165E-06 3.008E-01 2.967E+00 Waveband 39 of 40 completed in 0.8 sec. * * * * * Output for wavelength band 40 (740.0 to 750.0 nm; nominal wavelength = 745.0 nm) * * * * * Index of refraction at this wavelength is 1.340 The infinitely deep bottom boundary condition is applied at 16.2 m at 745.0 nm RADTRANX clear-sky spectral irradiances averaged over the band from 740.0 nm to 750.0 nm: Ed(diffuse) = 2.538E-01 Ed(direct) = 9.118E-01 Ed(total) = 1.166E+00 Absorption Coefficients of Individual Components at 745.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 2.4590 0.0000 0.0000 0.0002 2.4592 2 3.247 1.000 2.4590 0.0000 0.0000 0.0002 2.4592 3 6.494 2.000 2.4590 0.0000 0.0000 0.0002 2.4592 4 9.741 3.000 2.4590 0.0000 0.0000 0.0002 2.4592 5 12.989 4.000 2.4590 0.0000 0.0000 0.0002 2.4592 6 16.236 5.000 2.4590 0.0000 0.0000 0.0002 2.4592 7 19.483 6.000 2.4590 0.0000 0.0000 0.0002 2.4592 8 22.730 7.000 2.4590 0.0000 0.0000 0.0002 2.4592 9 25.977 8.000 2.4590 0.0000 0.0000 0.0002 2.4592 10 29.224 9.000 2.4590 0.0000 0.0000 0.0002 2.4592 11 32.471 10.000 2.4590 0.0000 0.0000 0.0002 2.4592 Scattering Coefficients of Individual Components at 745.0 nm iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.0005 0.2757 0.5116 0.0000 0.7879 2 3.247 1.000 0.0005 0.2757 0.5116 0.0000 0.7879 3 6.494 2.000 0.0005 0.2757 0.5116 0.0000 0.7879 4 9.741 3.000 0.0005 0.2757 0.5116 0.0000 0.7879 5 12.989 4.000 0.0005 0.2757 0.5116 0.0000 0.7879 6 16.236 5.000 0.0005 0.2757 0.5116 0.0000 0.7879 7 19.483 6.000 0.0005 0.2757 0.5116 0.0000 0.7879 8 22.730 7.000 0.0005 0.2757 0.5116 0.0000 0.7879 9 25.977 8.000 0.0005 0.2757 0.5116 0.0000 0.7879 10 29.224 9.000 0.0005 0.2757 0.5116 0.0000 0.7879 11 32.471 10.000 0.0005 0.2757 0.5116 0.0000 0.7879 Backscattering Coefficients of Individual Components at 745.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Comp 2 Comp 3 Comp 4 Total (m) (1/m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 0.00026 0.00387 0.00090 0.00000 0.00503 2 3.247 1.000 0.00026 0.00387 0.00090 0.00000 0.00503 3 6.494 2.000 0.00026 0.00387 0.00090 0.00000 0.00503 4 9.741 3.000 0.00026 0.00387 0.00090 0.00000 0.00503 5 12.989 4.000 0.00026 0.00387 0.00090 0.00000 0.00503 6 16.236 5.000 0.00026 0.00387 0.00090 0.00000 0.00503 7 19.483 6.000 0.00026 0.00387 0.00090 0.00000 0.00503 8 22.730 7.000 0.00026 0.00387 0.00090 0.00000 0.00503 9 25.977 8.000 0.00026 0.00387 0.00090 0.00000 0.00503 10 29.224 9.000 0.00026 0.00387 0.00090 0.00000 0.00503 11 32.471 10.000 0.00026 0.00387 0.00090 0.00000 0.00503 Summary of Inherent Optical Properties at 745.0 nm iz Opt Depth Geo Depth total a total b total c albedo total bb total bb/b (m) (1/m) (1/m) (1/m) (1/m) 1 0.000 0.000 2.4592 0.7879 3.2471 0.2426 0.00503 0.00638 2 3.247 1.000 2.4592 0.7879 3.2471 0.2426 0.00503 0.00638 3 6.494 2.000 2.4592 0.7879 3.2471 0.2426 0.00503 0.00638 4 9.741 3.000 2.4592 0.7879 3.2471 0.2426 0.00503 0.00638 5 12.989 4.000 2.4592 0.7879 3.2471 0.2426 0.00503 0.00638 6 16.236 5.000 2.4592 0.7879 3.2471 0.2426 0.00503 0.00638 7 19.483 6.000 2.4592 0.7879 3.2471 0.2426 0.00503 0.00638 8 22.730 7.000 2.4592 0.7879 3.2471 0.2426 0.00503 0.00638 9 25.977 8.000 2.4592 0.7879 3.2471 0.2426 0.00503 0.00638 10 29.224 9.000 2.4592 0.7879 3.2471 0.2426 0.00503 0.00638 11 32.471 10.000 2.4592 0.7879 3.2471 0.2426 0.00503 0.00638 The shape of the asymptotic radiance distribution for source-free water is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 7.2550E-01 8 20.00 3.2049E-01 7 30.00 1.0115E-01 6 40.00 2.7483E-02 5 50.00 7.6602E-03 4 60.00 2.4899E-03 3 70.00 9.8590E-04 2 80.00 4.6284E-04 1 87.50 2.8405E-04 1 92.50 2.1224E-04 2 100.00 1.4829E-04 3 110.00 1.0216E-04 4 120.00 7.8892E-05 5 130.00 6.6700E-05 6 140.00 6.0066E-05 7 150.00 5.6409E-05 8 160.00 5.4450E-05 9 170.00 5.3503E-05 10 180.00 5.3190E-05 Asymptotic source-free water AOP values are MUu(inf) = 0.3742 MUd(inf) = 0.9258 MU(inf) = 0.9236 R(m,inf) = 0.0007 k(inf) = 2.6626 (1/m) absorp(check) = 2.4592 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 745.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 8.0376E-02 1.3994E+00 1.4798E+00 3.3517E-02 1.1655E+00 0.4170 0.8329 0.7650 2.8757E-02 1 0.00 0.00 1.9124E-03 1.1889E+00 1.1909E+00 7.4466E-04 1.1342E+00 0.3894 0.9539 0.9518 6.5656E-04 2 3.25 1.00 1.6393E-04 8.9565E-02 8.9729E-02 6.5500E-05 8.5035E-02 0.3996 0.9494 0.9470 7.7028E-04 3 6.49 2.00 2.6914E-05 6.6854E-03 6.7123E-03 1.2455E-05 6.3098E-03 0.4628 0.9438 0.9382 1.9738E-03 4 9.74 3.00 1.4018E-05 5.0462E-04 5.1864E-04 7.1192E-06 4.6869E-04 0.5079 0.9288 0.8900 1.5189E-02 5 12.99 4.00 1.0874E-05 4.7397E-05 5.8271E-05 5.5831E-06 3.9591E-05 0.5134 0.8353 0.5836 1.4102E-01 6 16.24 5.00 8.8276E-06 1.2183E-05 2.1010E-05 4.5267E-06 7.4628E-06 0.5128 0.6126 0.1397 6.0657E-01 7 19.48 6.00 7.1804E-06 8.0170E-06 1.5197E-05 3.6743E-06 4.2904E-06 0.5117 0.5352 0.0405 8.5642E-01 8 22.73 7.00 5.8315E-06 6.3788E-06 1.2210E-05 2.9783E-06 3.3539E-06 0.5107 0.5258 0.0308 8.8802E-01 9 25.98 8.00 4.7292E-06 5.1652E-06 9.8944E-06 2.4112E-06 2.7076E-06 0.5098 0.5242 0.0300 8.9053E-01 10 29.22 9.00 3.8311E-06 4.1845E-06 8.0157E-06 1.9503E-06 2.1901E-06 0.5091 0.5234 0.0299 8.9052E-01 11 32.47 10.00 3.1012E-06 3.3877E-06 6.4889E-06 1.5765E-06 1.7707E-06 0.5084 0.5227 0.0299 8.9037E-01 LAYER-AVERAGE K-functions (units of 1/meter) at 745.0 nm zupper zlower zmid Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 1.000 0.500 2.45672 2.58585 2.58563 2.43086 2.59060 2.59071 2.37381 1.000 2.000 1.500 1.80676 2.59504 2.59285 1.65997 2.60096 2.60216 1.45743 2.000 3.000 2.500 0.65231 2.58388 2.56049 0.55930 2.59991 2.61324 0.46627 3.000 4.000 3.500 0.25392 2.36525 2.18610 0.24305 2.47134 2.60804 0.23746 4.000 5.000 4.500 0.20853 1.35854 1.02010 0.20974 1.66868 2.44953 0.21492 5.000 6.000 5.500 0.20653 0.41844 0.32389 0.20862 0.55356 1.56154 0.21417 6.000 7.000 6.500 0.20808 0.22859 0.21884 0.21001 0.24625 0.49488 0.21504 7.000 8.000 7.500 0.20952 0.21103 0.21031 0.21124 0.21406 0.23671 0.21575 8.000 9.000 8.500 0.21060 0.21055 0.21058 0.21213 0.21212 0.21206 0.21618 9.000 10.000 9.500 0.21138 0.21125 0.21131 0.21276 0.21258 0.21114 0.21640 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 745.0 nm iz zeta z Lu(z) Ld(z) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (1/sr) (sr) (nadir) (1/sr) in air 4.516E-02 2.682E-01 3.875E-02 7.422E-01 9.752E-05 8.366E-05 1 0.00 0.00 1.807E-04 4.819E+00 1.593E-04 4.120E+00 2 3.25 1.00 1.683E-05 3.500E-01 1.979E-04 3.892E+00 3 6.49 2.00 3.919E-06 2.477E-02 6.210E-04 3.178E+00 4 9.74 3.00 2.458E-06 1.731E-03 5.245E-03 2.896E+00 5 12.99 4.00 1.939E-06 1.221E-04 4.897E-02 2.880E+00 6 16.24 5.00 1.564E-06 1.013E-05 2.095E-01 2.895E+00 7 19.48 6.00 1.262E-06 2.069E-06 2.942E-01 2.911E+00 8 22.73 7.00 1.018E-06 1.249E-06 3.035E-01 2.926E+00 9 25.98 8.00 8.205E-07 9.780E-07 3.030E-01 2.939E+00 10 29.22 9.00 6.610E-07 7.861E-07 3.018E-01 2.951E+00 11 32.47 10.00 5.324E-07 6.331E-07 3.007E-01 2.961E+00 Waveband 40 of 40 completed in 0.8 sec. Energy Eo as a function of depth and wavelength Units are W/m^2 [values are integrated over the wavelength bands] depth 355.0 365.0 375.0 385.0 395.0 405.0 415.0 425.0 435.0 445.0 455.0 465.0 475.0 485.0 495.0 505.0 515.0 525.0 535.0 545.0 555.0 565.0 575.0 585.0 595.0 605.0 615.0 625.0 635.0 645.0 655.0 665.0 675.0 685.0 695.0 705.0 715.0 725.0 735.0 745.0 in air 1.079E+01 1.231E+01 1.218E+01 1.064E+01 1.304E+01 1.822E+01 1.914E+01 1.818E+01 1.854E+01 2.172E+01 2.310E+01 2.288E+01 2.311E+01 2.229E+01 2.253E+01 2.204E+01 2.109E+01 2.149E+01 2.166E+01 2.129E+01 2.106E+01 2.083E+01 2.075E+01 2.013E+01 1.930E+01 1.968E+01 1.916E+01 1.892E+01 1.865E+01 1.804E+01 1.721E+01 1.786E+01 1.752E+01 1.611E+01 1.551E+01 1.557E+01 1.429E+01 1.297E+01 1.409E+01 1.480E+01 0.0 8.140E+00 9.492E+00 9.503E+00 8.391E+00 1.040E+01 1.466E+01 1.547E+01 1.478E+01 1.514E+01 1.786E+01 1.918E+01 1.916E+01 1.954E+01 1.900E+01 1.934E+01 1.897E+01 1.806E+01 1.852E+01 1.872E+01 1.837E+01 1.811E+01 1.791E+01 1.767E+01 1.681E+01 1.585E+01 1.597E+01 1.555E+01 1.536E+01 1.513E+01 1.463E+01 1.394E+01 1.446E+01 1.426E+01 1.312E+01 1.257E+01 1.257E+01 1.151E+01 1.044E+01 1.134E+01 1.191E+01 1.0 7.012E+00 8.363E+00 8.434E+00 7.489E+00 9.339E+00 1.324E+01 1.397E+01 1.338E+01 1.371E+01 1.628E+01 1.763E+01 1.774E+01 1.822E+01 1.781E+01 1.820E+01 1.787E+01 1.692E+01 1.742E+01 1.764E+01 1.728E+01 1.696E+01 1.675E+01 1.633E+01 1.501E+01 1.331E+01 1.216E+01 1.171E+01 1.136E+01 1.097E+01 1.033E+01 9.345E+00 9.011E+00 8.668E+00 7.768E+00 6.968E+00 5.997E+00 3.999E+00 2.178E+00 1.207E+00 8.973E-01 2.0 5.956E+00 7.275E+00 7.395E+00 6.607E+00 8.297E+00 1.183E+01 1.248E+01 1.199E+01 1.229E+01 1.468E+01 1.606E+01 1.627E+01 1.685E+01 1.658E+01 1.701E+01 1.673E+01 1.573E+01 1.628E+01 1.651E+01 1.614E+01 1.577E+01 1.555E+01 1.497E+01 1.326E+01 1.103E+01 9.107E+00 8.662E+00 8.257E+00 7.811E+00 7.167E+00 6.146E+00 5.507E+00 5.178E+00 4.521E+00 3.789E+00 2.803E+00 1.361E+00 4.465E-01 1.270E-01 6.712E-02 3.0 5.008E+00 6.268E+00 6.422E+00 5.775E+00 7.305E+00 1.047E+01 1.105E+01 1.065E+01 1.093E+01 1.314E+01 1.450E+01 1.482E+01 1.546E+01 1.531E+01 1.578E+01 1.554E+01 1.452E+01 1.510E+01 1.534E+01 1.497E+01 1.455E+01 1.434E+01 1.362E+01 1.160E+01 9.042E+00 6.748E+00 6.341E+00 5.937E+00 5.502E+00 4.916E+00 3.997E+00 3.330E+00 3.068E+00 2.613E+00 2.040E+00 1.295E+00 4.580E-01 9.081E-02 1.351E-02 5.186E-03 4.0 4.179E+00 5.360E+00 5.537E+00 5.011E+00 6.385E+00 9.206E+00 9.718E+00 9.388E+00 9.643E+00 1.167E+01 1.301E+01 1.340E+01 1.410E+01 1.405E+01 1.455E+01 1.435E+01 1.332E+01 1.392E+01 1.417E+01 1.380E+01 1.334E+01 1.313E+01 1.230E+01 1.009E+01 7.358E+00 4.958E+00 4.603E+00 4.233E+00 3.843E+00 3.343E+00 2.577E+00 1.998E+00 1.812E+00 1.507E+00 1.092E+00 5.937E-01 1.530E-01 1.863E-02 1.680E-03 5.827E-04 5.0 3.466E+00 4.556E+00 4.745E+00 4.322E+00 5.548E+00 8.045E+00 8.494E+00 8.230E+00 8.461E+00 1.031E+01 1.161E+01 1.205E+01 1.278E+01 1.283E+01 1.335E+01 1.319E+01 1.215E+01 1.276E+01 1.302E+01 1.265E+01 1.217E+01 1.196E+01 1.105E+01 8.715E+00 5.950E+00 3.619E+00 3.319E+00 2.997E+00 2.665E+00 2.257E+00 1.650E+00 1.192E+00 1.071E+00 8.725E-01 5.835E-01 2.708E-01 5.104E-02 4.096E-03 4.219E-04 2.101E-04 6.0 2.860E+00 3.853E+00 4.046E+00 3.709E+00 4.796E+00 6.995E+00 7.386E+00 7.178E+00 7.385E+00 9.058E+00 1.030E+01 1.078E+01 1.153E+01 1.165E+01 1.218E+01 1.205E+01 1.103E+01 1.164E+01 1.190E+01 1.153E+01 1.104E+01 1.084E+01 9.880E+00 7.490E+00 4.784E+00 2.626E+00 2.379E+00 2.110E+00 1.837E+00 1.515E+00 1.050E+00 7.087E-01 6.370E-01 5.104E-01 3.128E-01 1.235E-01 1.724E-02 1.159E-03 2.553E-04 1.520E-04 7.0 2.349E+00 3.244E+00 3.434E+00 3.169E+00 4.127E+00 6.054E+00 6.394E+00 6.232E+00 6.416E+00 7.923E+00 9.102E+00 9.600E+00 1.036E+01 1.054E+01 1.107E+01 1.097E+01 9.970E+00 1.058E+01 1.083E+01 1.047E+01 9.976E+00 9.780E+00 8.791E+00 6.406E+00 3.827E+00 1.895E+00 1.696E+00 1.477E+00 1.260E+00 1.011E+00 6.650E-01 4.210E-01 3.839E-01 3.044E-01 1.694E-01 5.666E-02 6.079E-03 5.327E-04 2.050E-04 1.221E-04 8.0 1.922E+00 2.720E+00 2.903E+00 2.696E+00 3.537E+00 5.219E+00 5.512E+00 5.388E+00 5.552E+00 6.902E+00 8.009E+00 8.516E+00 9.268E+00 9.491E+00 1.002E+01 9.941E+00 8.973E+00 9.567E+00 9.820E+00 9.472E+00 8.976E+00 8.788E+00 7.789E+00 5.455E+00 3.048E+00 1.362E+00 1.204E+00 1.030E+00 8.602E-01 6.723E-01 4.195E-01 2.506E-01 2.364E-01 1.870E-01 9.370E-02 2.649E-02 2.384E-03 3.683E-04 1.712E-04 9.894E-05 9.0 1.568E+00 2.273E+00 2.445E+00 2.286E+00 3.021E+00 4.483E+00 4.734E+00 4.642E+00 4.786E+00 5.990E+00 7.021E+00 7.526E+00 8.261E+00 8.517E+00 9.034E+00 8.977E+00 8.046E+00 8.623E+00 8.868E+00 8.535E+00 8.045E+00 7.867E+00 6.875E+00 4.627E+00 2.418E+00 9.750E-01 8.514E-01 7.150E-01 5.851E-01 4.453E-01 2.639E-01 1.501E-01 1.501E-01 1.197E-01 5.361E-02 1.287E-02 1.135E-03 2.994E-04 1.434E-04 8.016E-05 10.0 1.274E+00 1.894E+00 2.054E+00 1.932E+00 2.571E+00 3.837E+00 4.053E+00 3.985E+00 4.112E+00 5.181E+00 6.134E+00 6.629E+00 7.338E+00 7.617E+00 8.119E+00 8.080E+00 7.191E+00 7.746E+00 7.982E+00 7.664E+00 7.187E+00 7.018E+00 6.048E+00 3.911E+00 1.912E+00 6.957E-01 6.001E-01 4.950E-01 3.968E-01 2.941E-01 1.658E-01 9.092E-02 9.910E-02 8.043E-02 3.223E-02 6.679E-03 6.849E-04 2.537E-04 1.199E-04 6.489E-05 Quantum Eo as a function of depth and wavelength Units are (micromol photons)/(m^2 s) [values are integrated over the wavelength bands] depth 355.0 365.0 375.0 385.0 395.0 405.0 415.0 425.0 435.0 445.0 455.0 465.0 475.0 485.0 495.0 505.0 515.0 525.0 535.0 545.0 555.0 565.0 575.0 585.0 595.0 605.0 615.0 625.0 635.0 645.0 655.0 665.0 675.0 685.0 695.0 705.0 715.0 725.0 735.0 745.0 in air 3.201E+01 3.755E+01 3.817E+01 3.424E+01 4.305E+01 6.168E+01 6.638E+01 6.456E+01 6.739E+01 8.079E+01 8.786E+01 8.891E+01 9.176E+01 9.035E+01 9.323E+01 9.301E+01 9.079E+01 9.432E+01 9.685E+01 9.696E+01 9.771E+01 9.835E+01 9.971E+01 9.840E+01 9.599E+01 9.950E+01 9.849E+01 9.886E+01 9.898E+01 9.728E+01 9.424E+01 9.928E+01 9.885E+01 9.221E+01 9.012E+01 9.172E+01 8.537E+01 7.859E+01 8.657E+01 9.214E+01 0.0 2.415E+01 2.896E+01 2.979E+01 2.700E+01 3.432E+01 4.963E+01 5.366E+01 5.249E+01 5.503E+01 6.643E+01 7.295E+01 7.448E+01 7.759E+01 7.703E+01 8.000E+01 8.007E+01 7.772E+01 8.125E+01 8.371E+01 8.370E+01 8.402E+01 8.456E+01 8.490E+01 8.219E+01 7.883E+01 8.075E+01 7.995E+01 8.023E+01 8.031E+01 7.889E+01 7.632E+01 8.039E+01 8.046E+01 7.512E+01 7.301E+01 7.406E+01 6.880E+01 6.326E+01 6.964E+01 7.415E+01 1.0 2.081E+01 2.551E+01 2.643E+01 2.410E+01 3.083E+01 4.481E+01 4.845E+01 4.752E+01 4.985E+01 6.053E+01 6.704E+01 6.893E+01 7.232E+01 7.220E+01 7.528E+01 7.543E+01 7.281E+01 7.643E+01 7.887E+01 7.871E+01 7.868E+01 7.910E+01 7.849E+01 7.339E+01 6.621E+01 6.150E+01 6.017E+01 5.934E+01 5.822E+01 5.571E+01 5.116E+01 5.008E+01 4.890E+01 4.447E+01 4.048E+01 3.534E+01 2.390E+01 1.320E+01 7.412E+00 5.587E+00 2.0 1.767E+01 2.220E+01 2.318E+01 2.126E+01 2.739E+01 4.003E+01 4.329E+01 4.258E+01 4.470E+01 5.462E+01 6.106E+01 6.325E+01 6.688E+01 6.719E+01 7.037E+01 7.060E+01 6.771E+01 7.142E+01 7.383E+01 7.353E+01 7.315E+01 7.345E+01 7.195E+01 6.482E+01 5.483E+01 4.605E+01 4.453E+01 4.313E+01 4.146E+01 3.864E+01 3.365E+01 3.061E+01 2.921E+01 2.589E+01 2.201E+01 1.652E+01 8.134E+00 2.706E+00 7.804E-01 4.180E-01 3.0 1.486E+01 1.912E+01 2.013E+01 1.858E+01 2.412E+01 3.545E+01 3.834E+01 3.781E+01 3.972E+01 4.886E+01 5.516E+01 5.758E+01 6.138E+01 6.206E+01 6.529E+01 6.561E+01 6.251E+01 6.625E+01 6.861E+01 6.818E+01 6.750E+01 6.770E+01 6.544E+01 5.674E+01 4.497E+01 3.412E+01 3.259E+01 3.101E+01 2.920E+01 2.650E+01 2.188E+01 1.851E+01 1.731E+01 1.496E+01 1.185E+01 7.632E+00 2.737E+00 5.503E-01 8.299E-02 3.229E-02 4.0 1.240E+01 1.635E+01 1.735E+01 1.613E+01 2.108E+01 3.116E+01 3.371E+01 3.335E+01 3.506E+01 4.341E+01 4.949E+01 5.207E+01 5.597E+01 5.697E+01 6.021E+01 6.059E+01 5.734E+01 6.107E+01 6.337E+01 6.284E+01 6.190E+01 6.201E+01 5.913E+01 4.932E+01 3.659E+01 2.507E+01 2.366E+01 2.211E+01 2.039E+01 1.802E+01 1.411E+01 1.110E+01 1.022E+01 8.629E+00 6.345E+00 3.498E+00 9.143E-01 1.129E-01 1.032E-02 3.628E-03 5.0 1.028E+01 1.390E+01 1.487E+01 1.391E+01 1.832E+01 2.723E+01 2.946E+01 2.923E+01 3.076E+01 3.834E+01 4.414E+01 4.682E+01 5.075E+01 5.200E+01 5.522E+01 5.565E+01 5.231E+01 5.599E+01 5.822E+01 5.760E+01 5.645E+01 5.648E+01 5.312E+01 4.261E+01 2.959E+01 1.830E+01 1.706E+01 1.566E+01 1.414E+01 1.217E+01 9.032E+00 6.624E+00 6.041E+00 4.995E+00 3.389E+00 1.596E+00 3.050E-01 2.482E-02 2.592E-03 1.308E-03 6.0 8.485E+00 1.175E+01 1.268E+01 1.194E+01 1.583E+01 2.368E+01 2.562E+01 2.550E+01 2.685E+01 3.369E+01 3.918E+01 4.189E+01 4.579E+01 4.723E+01 5.040E+01 5.087E+01 4.749E+01 5.109E+01 5.322E+01 5.254E+01 5.123E+01 5.119E+01 4.748E+01 3.662E+01 2.379E+01 1.328E+01 1.223E+01 1.102E+01 9.750E+00 8.166E+00 5.748E+00 3.939E+00 3.594E+00 2.922E+00 1.817E+00 7.275E-01 1.030E-01 7.021E-03 1.568E-03 9.463E-04 7.0 6.970E+00 9.896E+00 1.076E+01 1.020E+01 1.363E+01 2.049E+01 2.218E+01 2.214E+01 2.333E+01 2.947E+01 3.461E+01 3.731E+01 4.113E+01 4.272E+01 4.580E+01 4.629E+01 4.291E+01 4.640E+01 4.844E+01 4.771E+01 4.628E+01 4.618E+01 4.225E+01 3.132E+01 1.903E+01 9.583E+00 8.718E+00 7.716E+00 6.687E+00 5.452E+00 3.640E+00 2.340E+00 2.166E+00 1.743E+00 9.842E-01 3.339E-01 3.633E-02 3.228E-03 1.259E-03 7.603E-04 8.0 5.704E+00 8.299E+00 9.098E+00 8.675E+00 1.168E+01 1.767E+01 1.912E+01 1.914E+01 2.019E+01 2.567E+01 3.046E+01 3.310E+01 3.680E+01 3.847E+01 4.145E+01 4.196E+01 3.862E+01 4.198E+01 4.391E+01 4.315E+01 4.164E+01 4.150E+01 3.743E+01 2.667E+01 1.516E+01 6.887E+00 6.188E+00 5.379E+00 4.565E+00 3.624E+00 2.297E+00 1.393E+00 1.334E+00 1.071E+00 5.443E-01 1.561E-01 1.425E-02 2.232E-03 1.052E-03 6.161E-04 9.0 4.651E+00 6.935E+00 7.665E+00 7.355E+00 9.973E+00 1.517E+01 1.642E+01 1.649E+01 1.740E+01 2.228E+01 2.670E+01 2.925E+01 3.280E+01 3.452E+01 3.738E+01 3.789E+01 3.463E+01 3.784E+01 3.966E+01 3.888E+01 3.732E+01 3.715E+01 3.304E+01 2.262E+01 1.203E+01 4.930E+00 4.376E+00 3.735E+00 3.105E+00 2.401E+00 1.445E+00 8.343E-01 8.466E-01 6.850E-01 3.114E-01 7.583E-02 6.780E-03 1.814E-03 8.811E-04 4.991E-04 10.0 3.781E+00 5.777E+00 6.436E+00 6.216E+00 8.489E+00 1.299E+01 1.406E+01 1.416E+01 1.495E+01 1.927E+01 2.333E+01 2.576E+01 2.913E+01 3.088E+01 3.359E+01 3.410E+01 3.095E+01 3.399E+01 3.569E+01 3.491E+01 3.334E+01 3.314E+01 2.906E+01 1.912E+01 9.506E+00 3.518E+00 3.085E+00 2.586E+00 2.106E+00 1.586E+00 9.074E-01 5.053E-01 5.591E-01 4.605E-01 1.872E-01 3.935E-02 4.093E-03 1.537E-03 7.368E-04 4.040E-04 PAR as a function of depth The wavelengths used for this PAR calculation were 400.0 to 700.0 nm depth PAR(from Eo) PAR(from Ed) (m) (mumol phot/m^2/s) (mumol phot/m^2/s) in air 2.7228E+03 2.0530E+03 0.00 2.2657E+03 2.0167E+03 1.00 1.8951E+03 1.6226E+03 2.00 1.6044E+03 1.3281E+03 3.00 1.3731E+03 1.1030E+03 4.00 1.1852E+03 9.2680E+02 5.00 1.0294E+03 7.8574E+02 6.00 8.9780E+02 6.7062E+02 7.00 7.8503E+02 5.7514E+02 8.00 6.8735E+02 4.9497E+02 9.00 6.0213E+02 4.2700E+02 10.00 5.2744E+02 3.6897E+02 K-function for PAR (units of 1/meter) (valid only when zupper and zlower are closely spaced) zupper zlower z KPAR(from Eo, layer-averaged) 0.000 1.000 0.500 0.17812 1.000 2.000 1.500 0.16613 2.000 3.000 2.500 0.15538 3.000 4.000 3.500 0.14687 4.000 5.000 4.500 0.14072 5.000 6.000 5.500 0.13657 6.000 7.000 6.500 0.13403 7.000 8.000 7.500 0.13268 8.000 9.000 8.500 0.13217 9.000 10.000 9.500 0.13224 CIE 1931 chromaticity coordinates (x,y) and (il)luminance Y for selected quantities. Output is (x,y,Y). Y is illuminance in lm/m^2 for Ed and Eu. Y is luminance in lm/(m^2 sr) for Lu and Lw. Y is not defined for Rrs depth Ed Eu Lu Lw Rrs in air (0.327, 0.338, 1.142E+05) (0.302, 0.336, 4.516E+03) (0.325, 0.343, 4.634E+03) (0.240, 0.342, 3.370E+02) (0.243, 0.336, 0.000E+00) 0.00 (0.326, 0.339, 1.125E+05) (0.242, 0.347, 2.667E+03) (0.240, 0.342, 6.240E+02) 1.00 (0.311, 0.342, 9.722E+04) (0.238, 0.351, 2.515E+03) (0.235, 0.345, 5.631E+02) 2.00 (0.297, 0.345, 8.426E+04) (0.233, 0.355, 2.347E+03) (0.231, 0.349, 5.065E+02) 3.00 (0.285, 0.348, 7.317E+04) (0.230, 0.359, 2.173E+03) (0.227, 0.353, 4.542E+02) 4.00 (0.275, 0.352, 6.366E+04) (0.226, 0.363, 1.998E+03) (0.224, 0.356, 4.063E+02) 5.00 (0.266, 0.355, 5.545E+04) (0.223, 0.368, 1.826E+03) (0.221, 0.360, 3.624E+02) 6.00 (0.258, 0.359, 4.835E+04) (0.221, 0.372, 1.661E+03) (0.219, 0.364, 3.226E+02) 7.00 (0.252, 0.362, 4.218E+04) (0.219, 0.376, 1.504E+03) (0.217, 0.368, 2.864E+02) 8.00 (0.246, 0.366, 3.681E+04) (0.217, 0.380, 1.356E+03) (0.215, 0.371, 2.538E+02) 9.00 (0.242, 0.369, 3.213E+04) (0.216, 0.383, 1.217E+03) (0.213, 0.375, 2.245E+02) 10.00 (0.238, 0.373, 2.804E+04) (0.214, 0.387, 1.089E+03) (0.212, 0.379, 1.982E+02) The Forel-Ule number of the nadir-viewing Rrs is FU = 5 The Forel-Ule number of the nadir-viewing, in-air Lu is FU = 6 The Forel-Ule number of the nadir-viewing Lw is FU = 5 The final depth-averaged photopic alpha and K are alpha = 0.8823 1/m and K = 0.1395 1/m The final estimate for the Secchi depth is z_SD = 7.83 m Run completed on 07/17/2013 at 17:22:30.4 Total (wall clock) run time = 10.8 sec