======================================================== | | | HYDROLIGHT 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: Q1 (07/17/2013 16:07) Run started on 07/17/2013 at 16:07:08.4 The radiance distribution is computed on the following (Theta,Phi,Depth,Wavelength) grid: I Theta Mu J Phi K zeta z L Lambda (deg) (deg) (m) (nm) 1 87.500 0.0436 1 0.00 1 0.000 1 550.00 2 80.000 0.1730 2 15.00 2 0.010 3 70.000 0.3407 3 30.00 3 1.000 4 60.000 0.4981 4 45.00 4 1.010 5 50.000 0.6403 5 60.00 5 2.000 6 40.000 0.7631 6 75.00 6 2.010 7 30.000 0.8627 7 90.00 7 3.000 8 20.000 0.9361 8 105.00 8 3.010 9 10.000 0.9811 9 120.00 9 4.000 10 0.000 0.9981 10 135.00 10 4.010 11 150.00 11 5.000 12 165.00 12 5.010 13 180.00 13 6.000 14 195.00 14 6.010 15 210.00 15 7.000 16 225.00 16 7.010 17 240.00 17 8.000 18 255.00 18 8.010 19 270.00 19 9.000 20 285.00 20 9.010 21 300.00 21 10.000 22 315.00 22 10.010 23 330.00 23 11.000 24 345.00 24 11.010 25 12.000 26 12.010 27 13.000 28 13.010 29 14.000 30 14.010 31 15.000 32 15.010 33 16.000 34 16.010 35 17.000 36 17.010 37 18.000 38 18.010 39 19.000 40 19.010 41 20.000 42 20.010 ***** BEGIN IOP MODEL SPECIFICATIONS ***** The IOP routine "abconst" is being used. Constant absorption and scattering coefficients are used: The absorption coefficient is a = 0.1000 1/m The scattering coefficient is b = 0.4000 1/m The phase function for component 1 comes from a file titled Petzold "average particle" from L&W Table 3.10; standard quad partition; 7 Sept 98 ***** END IOP MODEL SPECIFICATIONS ***** ***** BEGIN INELASTIC SCATTER AND INTERNAL SOURCE SPECIFICATIONS ***** Chlorophyll fluorescence is not included in this run CDOM fluorescence is not included in this run Raman scattering is not included in this run ***** 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,s) = Q( 7, 1) centered at (theta, phi) = (30.000, 0.000) 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 = 197 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 = 30.0 degrees Pressure = 29.9 in. mercury Day of year = 197 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 optical depth 20.00 ***** END BOTTOM BOUNDARY SPECIFICATIONS ***** Initialization of Hydrolight Completed in 0.1 sec. * * * * * Output for wavelength band 1 (549.5 to 550.5 nm; nominal wavelength = 550.0 nm) * * * * * Index of refraction at this wavelength is 1.340 RADTRANX clear-sky spectral irradiances averaged over the band from 549.5 nm to 550.5 nm: Ed(diffuse) = 3.829E-01 Ed(direct) = 9.931E-01 Ed(total) = 1.376E+00 Absorption Coefficients of Individual Components at 550.0 nm iz Opt Depth Geo Depth Comp 1 Total (m) (1/m) (1/m) 1 0.000 0.000 0.1000 0.1000 3 1.000 2.000 0.1000 0.1000 5 2.000 4.000 0.1000 0.1000 7 3.000 6.000 0.1000 0.1000 9 4.000 8.000 0.1000 0.1000 11 5.000 10.000 0.1000 0.1000 13 6.000 12.000 0.1000 0.1000 15 7.000 14.000 0.1000 0.1000 17 8.000 16.000 0.1000 0.1000 19 9.000 18.000 0.1000 0.1000 21 10.000 20.000 0.1000 0.1000 23 11.000 22.000 0.1000 0.1000 25 12.000 24.000 0.1000 0.1000 27 13.000 26.000 0.1000 0.1000 29 14.000 28.000 0.1000 0.1000 31 15.000 30.000 0.1000 0.1000 33 16.000 32.000 0.1000 0.1000 35 17.000 34.000 0.1000 0.1000 37 18.000 36.000 0.1000 0.1000 39 19.000 38.000 0.1000 0.1000 41 20.000 40.000 0.1000 0.1000 Scattering Coefficients of Individual Components at 550.0 nm iz Opt Depth Geo Depth Comp 1 Total (m) (1/m) (1/m) 1 0.000 0.000 0.4000 0.4000 3 1.000 2.000 0.4000 0.4000 5 2.000 4.000 0.4000 0.4000 7 3.000 6.000 0.4000 0.4000 9 4.000 8.000 0.4000 0.4000 11 5.000 10.000 0.4000 0.4000 13 6.000 12.000 0.4000 0.4000 15 7.000 14.000 0.4000 0.4000 17 8.000 16.000 0.4000 0.4000 19 9.000 18.000 0.4000 0.4000 21 10.000 20.000 0.4000 0.4000 23 11.000 22.000 0.4000 0.4000 25 12.000 24.000 0.4000 0.4000 27 13.000 26.000 0.4000 0.4000 29 14.000 28.000 0.4000 0.4000 31 15.000 30.000 0.4000 0.4000 33 16.000 32.000 0.4000 0.4000 35 17.000 34.000 0.4000 0.4000 37 18.000 36.000 0.4000 0.4000 39 19.000 38.000 0.4000 0.4000 41 20.000 40.000 0.4000 0.4000 Backscattering Coefficients of Individual Components at 550.0 nm (computed from the scattering coefficients and the phase functions) iz Opt Depth Geo Depth Comp 1 Total (m) (1/m) (1/m) 1 0.000 0.000 0.00733 0.00733 3 1.000 2.000 0.00733 0.00733 5 2.000 4.000 0.00733 0.00733 7 3.000 6.000 0.00733 0.00733 9 4.000 8.000 0.00733 0.00733 11 5.000 10.000 0.00733 0.00733 13 6.000 12.000 0.00733 0.00733 15 7.000 14.000 0.00733 0.00733 17 8.000 16.000 0.00733 0.00733 19 9.000 18.000 0.00733 0.00733 21 10.000 20.000 0.00733 0.00733 23 11.000 22.000 0.00733 0.00733 25 12.000 24.000 0.00733 0.00733 27 13.000 26.000 0.00733 0.00733 29 14.000 28.000 0.00733 0.00733 31 15.000 30.000 0.00733 0.00733 33 16.000 32.000 0.00733 0.00733 35 17.000 34.000 0.00733 0.00733 37 18.000 36.000 0.00733 0.00733 39 19.000 38.000 0.00733 0.00733 41 20.000 40.000 0.00733 0.00733 Summary of Inherent Optical Properties at 550.0 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 0.1000 0.4000 0.5000 0.8000 0.00733 0.01833 3 1.000 2.000 0.1000 0.4000 0.5000 0.8000 0.00733 0.01833 5 2.000 4.000 0.1000 0.4000 0.5000 0.8000 0.00733 0.01833 7 3.000 6.000 0.1000 0.4000 0.5000 0.8000 0.00733 0.01833 9 4.000 8.000 0.1000 0.4000 0.5000 0.8000 0.00733 0.01833 11 5.000 10.000 0.1000 0.4000 0.5000 0.8000 0.00733 0.01833 13 6.000 12.000 0.1000 0.4000 0.5000 0.8000 0.00733 0.01833 15 7.000 14.000 0.1000 0.4000 0.5000 0.8000 0.00733 0.01833 17 8.000 16.000 0.1000 0.4000 0.5000 0.8000 0.00733 0.01833 19 9.000 18.000 0.1000 0.4000 0.5000 0.8000 0.00733 0.01833 21 10.000 20.000 0.1000 0.4000 0.5000 0.8000 0.00733 0.01833 23 11.000 22.000 0.1000 0.4000 0.5000 0.8000 0.00733 0.01833 25 12.000 24.000 0.1000 0.4000 0.5000 0.8000 0.00733 0.01833 27 13.000 26.000 0.1000 0.4000 0.5000 0.8000 0.00733 0.01833 29 14.000 28.000 0.1000 0.4000 0.5000 0.8000 0.00733 0.01833 31 15.000 30.000 0.1000 0.4000 0.5000 0.8000 0.00733 0.01833 33 16.000 32.000 0.1000 0.4000 0.5000 0.8000 0.00733 0.01833 35 17.000 34.000 0.1000 0.4000 0.5000 0.8000 0.00733 0.01833 37 18.000 36.000 0.1000 0.4000 0.5000 0.8000 0.00733 0.01833 39 19.000 38.000 0.1000 0.4000 0.5000 0.8000 0.00733 0.01833 41 20.000 40.000 0.1000 0.4000 0.5000 0.8000 0.00733 0.01833 The shape of the asymptotic radiance distribution is given by u theta Linf(theta) 10 0.00 1.0000E+00 9 10.00 9.3932E-01 8 20.00 7.9535E-01 7 30.00 6.1148E-01 6 40.00 4.3440E-01 5 50.00 2.9113E-01 4 60.00 1.8821E-01 3 70.00 1.1997E-01 2 80.00 7.7148E-02 1 87.50 5.5855E-02 1 92.50 4.4766E-02 2 100.00 3.3617E-02 3 110.00 2.3947E-02 4 120.00 1.7889E-02 5 130.00 1.4103E-02 6 140.00 1.1729E-02 7 150.00 1.0253E-02 8 160.00 9.3696E-03 9 170.00 8.8993E-03 10 180.00 8.7357E-03 Asymptotic AOP values are MUu(inf) = 0.3600 MUd(inf) = 0.7237 MU(inf) = 0.6489 R(inf) = 0.0369 Lu(inf)/Ed(inf) = 0.006702 (1/sr) k(inf) = 0.1541 (1/m) absorp(check) = 0.1000 = k(inf)*MU(inf) Irradiances (units of W/m^2 nm), Mean Cosines (Mubars), and Irradiance Reflectance at 550.0 nm iz zeta z(m) Eou Eod Eo Eu Ed MUBARu MUBARd MUBAR R = Eu/Ed in air 1.6237E-01 1.9209E+00 2.0833E+00 6.1702E-02 1.3760E+00 0.3800 0.7163 0.6309 4.4842E-02 1 0.00 0.00 9.4827E-02 1.5566E+00 1.6514E+00 3.8648E-02 1.3529E+00 0.4076 0.8692 0.7958 2.8566E-02 3 1.00 2.00 8.2549E-02 1.2688E+00 1.3514E+00 3.2199E-02 1.0460E+00 0.3901 0.8244 0.7502 3.0781E-02 5 2.00 4.00 6.7599E-02 1.0012E+00 1.0688E+00 2.5756E-02 7.9820E-01 0.3810 0.7972 0.7227 3.2267E-02 7 3.00 6.00 5.3620E-02 7.7508E-01 8.2870E-01 2.0125E-02 6.0358E-01 0.3753 0.7787 0.7041 3.3342E-02 9 4.00 8.00 4.1679E-02 5.9231E-01 6.3399E-01 1.5482E-02 4.5340E-01 0.3715 0.7655 0.6907 3.4146E-02 11 5.00 10.00 3.1948E-02 4.4845E-01 4.8040E-01 1.1779E-02 3.3890E-01 0.3687 0.7557 0.6809 3.4757E-02 13 6.00 12.00 2.4244E-02 3.3719E-01 3.6143E-01 8.8890E-03 2.5234E-01 0.3667 0.7484 0.6736 3.5226E-02 15 7.00 14.00 1.8260E-02 2.5221E-01 2.7047E-01 6.6672E-03 1.8735E-01 0.3651 0.7428 0.6680 3.5587E-02 17 8.00 16.00 1.3676E-02 1.8790E-01 2.0158E-01 4.9776E-03 1.3878E-01 0.3640 0.7386 0.6638 3.5868E-02 19 9.00 18.00 1.0198E-02 1.3956E-01 1.4976E-01 3.7030E-03 1.0262E-01 0.3631 0.7353 0.6605 3.6086E-02 21 10.00 20.00 7.5801E-03 1.0341E-01 1.1099E-01 2.7472E-03 7.5774E-02 0.3624 0.7328 0.6580 3.6255E-02 23 11.00 22.00 5.6199E-03 7.6484E-02 8.2103E-02 2.0338E-03 5.5894E-02 0.3619 0.7308 0.6560 3.6388E-02 25 12.00 24.00 4.1584E-03 5.6488E-02 6.0646E-02 1.5032E-03 4.1195E-02 0.3615 0.7293 0.6545 3.6491E-02 27 13.00 26.00 3.0722E-03 4.1674E-02 4.4746E-02 1.1097E-03 3.0342E-02 0.3612 0.7281 0.6533 3.6572E-02 29 14.00 28.00 2.2671E-03 3.0718E-02 3.2985E-02 8.1830E-04 2.2337E-02 0.3609 0.7272 0.6524 3.6635E-02 31 15.00 30.00 1.6715E-03 2.2627E-02 2.4299E-02 6.0300E-04 1.6437E-02 0.3608 0.7264 0.6516 3.6685E-02 33 16.00 32.00 1.2314E-03 1.6658E-02 1.7889E-02 4.4403E-04 1.2091E-02 0.3606 0.7259 0.6511 3.6724E-02 35 17.00 34.00 9.0667E-04 1.2259E-02 1.3165E-02 3.2684E-04 8.8926E-03 0.3605 0.7254 0.6506 3.6755E-02 37 18.00 36.00 6.6730E-04 9.0184E-03 9.6857E-03 2.4049E-04 6.5389E-03 0.3604 0.7251 0.6503 3.6779E-02 39 19.00 38.00 4.9096E-04 6.6330E-03 7.1239E-03 1.7690E-04 4.8074E-03 0.3603 0.7248 0.6500 3.6798E-02 41 20.00 40.00 3.6112E-04 4.8775E-03 5.2386E-03 1.3010E-04 3.5340E-03 0.3603 0.7246 0.6498 3.6814E-02 K-functions (units of 1/meter) at 550.0 nm (these are accurate local values only when zupper and zlower are closely spaced) zupper zlower z Kou(z) Kod(z) Ko(z) Ku(z) Kd(z) Knet(z) KLu(z) 0.000 0.020 0.010 0.04574 0.09099 0.08839 0.07584 0.12427 0.12570 0.11257 2.000 2.020 2.010 0.08865 0.11208 0.11065 0.10374 0.13241 0.13332 0.12477 4.000 4.020 4.010 0.10929 0.12394 0.12302 0.11842 0.13774 0.13839 0.13232 6.000 6.020 6.010 0.12162 0.13163 0.13099 0.12775 0.14157 0.14205 0.13758 8.000 8.020 8.010 0.12988 0.13705 0.13658 0.13423 0.14442 0.14478 0.14143 10.000 10.020 10.010 0.13574 0.14103 0.14068 0.13893 0.14659 0.14687 0.14431 12.000 12.020 12.010 0.14006 0.14401 0.14375 0.14244 0.14825 0.14847 0.14651 14.000 14.020 14.010 0.14328 0.14628 0.14608 0.14508 0.14954 0.14970 0.14820 16.000 16.020 16.010 0.14573 0.14802 0.14787 0.14710 0.15053 0.15066 0.14950 18.000 18.020 18.010 0.14760 0.14936 0.14924 0.14866 0.15131 0.15141 0.15051 20.000 20.020 20.010 0.14904 0.15040 0.15031 0.14985 0.15191 0.15199 0.15129 22.000 22.020 22.010 0.15015 0.15120 0.15113 0.15078 0.15238 0.15244 0.15190 24.000 24.020 24.010 0.15101 0.15183 0.15177 0.15150 0.15275 0.15279 0.15237 26.000 26.020 26.010 0.15167 0.15231 0.15227 0.15206 0.15303 0.15307 0.15274 28.000 28.020 28.010 0.15219 0.15269 0.15266 0.15249 0.15326 0.15329 0.15303 30.000 30.020 30.010 0.15261 0.15300 0.15297 0.15284 0.15344 0.15346 0.15326 32.000 32.020 32.010 0.15292 0.15323 0.15321 0.15310 0.15357 0.15359 0.15344 34.000 34.020 34.010 0.15317 0.15341 0.15339 0.15331 0.15368 0.15370 0.15358 36.000 36.020 36.010 0.15337 0.15355 0.15354 0.15348 0.15377 0.15378 0.15368 38.000 38.020 38.010 0.15352 0.15367 0.15366 0.15361 0.15384 0.15385 0.15377 40.000 40.020 40.010 0.15364 0.15375 0.15375 0.15371 0.15389 0.15390 0.15384 Radiances Just Above the Water Surface (at z = a) (units of W/m^2 sr nm) at 550.0 nm [(Theta,Phi) are the directions of photon travel. Theta is measured from 0 at the zenith. Solar photons travel in the Phi = 180 direction (the sun is located at Phi = 0). (Thus Phi = 45 represents the 135 degree viewing angle for minimizing sun glitter.)] I J Theta Phi Phi-view L(sky) L(water-lv) L(refl-sky) L(total up) Rrs rho (zenith) (Lrefl/Lsky) 10 1 0.0 0.0 0.0 1.03330E-01 4.55566E-03 7.68777E-03 1.22434E-02 3.31083E-03 0.074400 9 1 10.0 0.0 180.0 6.37591E-02 4.72536E-03 2.29150E-03 7.01686E-03 3.43416E-03 0.035940 9 4 10.0 45.0 135.0 7.00540E-02 4.65995E-03 2.65777E-03 7.31772E-03 3.38662E-03 0.037939 9 7 10.0 90.0 90.0 9.46488E-02 4.58866E-03 5.54877E-03 1.01374E-02 3.33481E-03 0.058625 8 1 20.0 0.0 180.0 5.00819E-02 4.82975E-03 1.22296E-03 6.05271E-03 3.51002E-03 0.024419 8 4 20.0 45.0 135.0 5.57546E-02 4.70176E-03 1.44095E-03 6.14271E-03 3.41700E-03 0.025845 8 7 20.0 90.0 90.0 8.19845E-02 4.61940E-03 3.25806E-03 7.87746E-03 3.35715E-03 0.039740 7 1 30.0 0.0 180.0 4.34237E-02 4.94382E-03 1.04531E-03 5.98913E-03 3.59292E-03 0.024072 7 4 30.0 45.0 135.0 4.81433E-02 4.82785E-03 1.17422E-03 6.00208E-03 3.50864E-03 0.024390 7 7 30.0 90.0 90.0 7.02040E-02 4.73192E-03 2.02903E-03 6.76095E-03 3.43892E-03 0.028902 6 1 40.0 0.0 180.0 4.12173E-02 5.00948E-03 1.16225E-03 6.17174E-03 3.64064E-03 0.028198 6 4 40.0 45.0 135.0 4.50689E-02 4.87478E-03 1.26054E-03 6.13531E-03 3.54274E-03 0.027969 6 7 40.0 90.0 90.0 6.32760E-02 4.86562E-03 1.82648E-03 6.69210E-03 3.53609E-03 0.028865 5 1 50.0 0.0 180.0 4.32150E-02 5.07287E-03 1.83597E-03 6.90884E-03 3.68671E-03 0.042485 5 4 50.0 45.0 135.0 4.60514E-02 4.93927E-03 1.91274E-03 6.85201E-03 3.58961E-03 0.041535 5 7 50.0 90.0 90.0 6.12137E-02 5.04364E-03 2.47281E-03 7.51646E-03 3.66547E-03 0.040396 4 1 60.0 0.0 180.0 5.12968E-02 4.99851E-03 4.27695E-03 9.27547E-03 3.63267E-03 0.083377 4 4 60.0 45.0 135.0 5.24578E-02 4.90030E-03 4.22341E-03 9.12371E-03 3.56129E-03 0.080511 4 7 60.0 90.0 90.0 6.47784E-02 5.17050E-03 4.93199E-03 1.01025E-02 3.75766E-03 0.076136 3 1 70.0 0.0 180.0 7.11747E-02 4.65442E-03 1.18141E-02 1.64685E-02 3.38260E-03 0.165987 3 4 70.0 45.0 135.0 6.91714E-02 4.66650E-03 1.13673E-02 1.60338E-02 3.39138E-03 0.164336 3 7 70.0 90.0 90.0 7.73320E-02 5.01007E-03 1.23614E-02 1.73715E-02 3.64107E-03 0.159849 2 1 80.0 0.0 180.0 1.20927E-01 4.00973E-03 2.93663E-02 3.33760E-02 2.91407E-03 0.242843 2 4 80.0 45.0 135.0 1.11976E-01 4.05097E-03 2.84033E-02 3.24543E-02 2.94404E-03 0.253655 2 7 80.0 90.0 90.0 1.11249E-01 4.40253E-03 2.97460E-02 3.41485E-02 3.19954E-03 0.267382 1 1 87.5 0.0 180.0 1.95517E-01 3.26169E-03 5.17916E-02 5.50532E-02 2.37043E-03 0.264896 1 4 87.5 45.0 135.0 1.76039E-01 3.16084E-03 5.14718E-02 5.46326E-02 2.29714E-03 0.292389 1 7 87.5 90.0 90.0 1.60156E-01 3.82720E-03 5.26780E-02 5.65052E-02 2.78141E-03 0.328916 Selected Radiances (units of W/m^2 sr nm) and Radiance-Irradiance Ratios at 550.0 nm [Here (theta,phi) are directions of photon travel relative to nadir (solar photons travel along phi=180).] iz zeta z Lu(z) Ld(z) Lh(z,phi=0) Lh(z,phi=90) Lh(z,phi=180) Lu/Ed Q = Eu/Lu Lw(z) Rrs = Lw/Ed (m) (theta=180) (theta=0) (theta=90) (theta=90) (theta=90) (1/sr) (sr) (theta=180) (1/sr) in air 1.224E-02 1.033E-01 1.253E-01 1.083E-01 1.623E-01 8.898E-03 5.040E+00 4.556E-03 3.311E-03 1 0.00 0.00 8.446E-03 1.924E-01 1.803E-02 2.292E-02 3.474E-02 6.243E-03 4.576E+00 3 1.00 2.00 6.655E-03 3.033E-01 1.643E-02 2.259E-02 3.966E-02 6.362E-03 4.838E+00 5 2.00 4.00 5.144E-03 3.261E-01 1.421E-02 1.990E-02 3.491E-02 6.445E-03 5.007E+00 7 3.00 6.00 3.926E-03 3.027E-01 1.178E-02 1.656E-02 2.849E-02 6.505E-03 5.126E+00 9 4.00 8.00 2.970E-03 2.598E-01 9.540E-03 1.334E-02 2.233E-02 6.550E-03 5.213E+00 11 5.00 10.00 2.232E-03 2.127E-01 7.600E-03 1.051E-02 1.706E-02 6.585E-03 5.278E+00 13 6.00 12.00 1.668E-03 1.687E-01 5.984E-03 8.159E-03 1.281E-02 6.611E-03 5.328E+00 15 7.00 14.00 1.242E-03 1.309E-01 4.668E-03 6.262E-03 9.503E-03 6.631E-03 5.367E+00 17 8.00 16.00 9.224E-04 1.001E-01 3.614E-03 4.763E-03 6.994E-03 6.647E-03 5.396E+00 19 9.00 18.00 6.833E-04 7.564E-02 2.781E-03 3.599E-03 5.117E-03 6.659E-03 5.419E+00 21 10.00 20.00 5.053E-04 5.673E-02 2.128E-03 2.704E-03 3.729E-03 6.669E-03 5.437E+00 23 11.00 22.00 3.731E-04 4.230E-02 1.621E-03 2.023E-03 2.710E-03 6.676E-03 5.451E+00 25 12.00 24.00 2.752E-04 3.141E-02 1.230E-03 1.509E-03 1.967E-03 6.681E-03 5.462E+00 27 13.00 26.00 2.029E-04 2.324E-02 9.296E-04 1.122E-03 1.426E-03 6.686E-03 5.470E+00 29 14.00 28.00 1.494E-04 1.717E-02 7.006E-04 8.323E-04 1.034E-03 6.689E-03 5.477E+00 31 15.00 30.00 1.100E-04 1.266E-02 5.266E-04 6.164E-04 7.496E-04 6.692E-03 5.482E+00 33 16.00 32.00 8.094E-05 9.320E-03 3.948E-04 4.558E-04 5.435E-04 6.694E-03 5.486E+00 35 17.00 34.00 5.954E-05 6.858E-03 2.954E-04 3.366E-04 3.944E-04 6.696E-03 5.489E+00 37 18.00 36.00 4.379E-05 5.043E-03 2.206E-04 2.484E-04 2.864E-04 6.697E-03 5.492E+00 39 19.00 38.00 3.220E-05 3.707E-03 1.644E-04 1.832E-04 2.081E-04 6.698E-03 5.494E+00 41 20.00 40.00 2.367E-05 2.724E-03 1.224E-04 1.350E-04 1.513E-04 6.699E-03 5.495E+00 Waveband 1 of 1 completed in 2.0 sec. Energy Eo as a function of depth and wavelength Units are W/m^2 [values are integrated over the wavelength bands] depth 550.0 in air 2.083E+00 0.0 1.651E+00 2.0 1.351E+00 4.0 1.069E+00 6.0 8.287E-01 8.0 6.340E-01 10.0 4.804E-01 12.0 3.614E-01 14.0 2.705E-01 16.0 2.016E-01 18.0 1.498E-01 20.0 1.110E-01 22.0 8.210E-02 24.0 6.065E-02 26.0 4.475E-02 28.0 3.298E-02 30.0 2.430E-02 32.0 1.789E-02 34.0 1.317E-02 36.0 9.686E-03 38.0 7.124E-03 40.0 5.239E-03 Quantum Eo as a function of depth and wavelength Units are (micromol photons)/(m^2 s) [values are integrated over the wavelength bands] depth 550.0 in air 9.577E+00 0.0 7.591E+00 2.0 6.212E+00 4.0 4.913E+00 6.0 3.809E+00 8.0 2.914E+00 10.0 2.208E+00 12.0 1.661E+00 14.0 1.243E+00 16.0 9.266E-01 18.0 6.884E-01 20.0 5.102E-01 22.0 3.774E-01 24.0 2.788E-01 26.0 2.057E-01 28.0 1.516E-01 30.0 1.117E-01 32.0 8.223E-02 34.0 6.052E-02 36.0 4.452E-02 38.0 3.275E-02 40.0 2.408E-02 PAR was not calculated for this run (PAR is meaningful only for runs covering the near-UV and visible spectrum) PAR range currently set to 400.0 to 700.0 nm Run completed on 07/17/2013 at 16:07:10.6 Total (wall clock) run time = 2.1 sec