show # salt acids illite feldspar quartz hematite # acid=old mineral(Ca) # illite = 38% Ca # feldspar = 15% Ca # quartz = 17% Ca # hematite = 1-27% Ca # Let's see which of Kurt's features we can explain: # * quantitative features of scattering vs depth at 532 nm # * quantitative features of absorption vs depth at 532 and 470 nm # * approximate wavelength dependence of scattering at 532, 470, and 337 nm. 350 2390 760 300 340 400 220 390 72 30 34 40 420 1160 330.6 130.5 147.9 173.3333 210 390 72 30 34 40 330 780 190 75 85 100 240 410 72 30 34 40 350 700 186.2 73.5 83.3 98 200 350 72 30 34 40 270 2000 608 240 272 320 quit For 532 nm : number of integration steps is 600 integration goes from -3*sigma to 7*sigma a_all and b_e will be shown Index formulae will be used, additional information in the data file is required You will need to supply mass densities at the program prompt file `inputs' is being fed in Additional information for refractive index reconstruction: c0 c1 c2 d0 b Ice: 2.544 -0.3699 0.02764 Impurity components: 2.692 -0.4117 0.0323 1.3e-07 -8.278 6.112 -1.4907 0.1187 1e-08 0 -4.16919 1.82676 -0.149322 0.00158924 -1.334 3.17103 -0.472823 0.0345476 3.71703e-05 -0.25501 1.545 0 0 1.29965e-07 -8.278 -157.244 51.2775 -4.09954 1.04883 -1.3423 refractive index of ice is 1.31118 density of ice is 0.917 wavelength of the incident light is 532 nm number of components is 6 index real index imag. radius avg. radius RMS concentration density 1.3804 2.96871e-09 0.4 2.03 33 2.2 1.43174 1e-08 0.0695 1.86 171 1.68 1.414 0.000864334 0.27 2.67 12 2.6 1.56433 3.30851e-05 0.27 2.67 12 2.6 1.545 2.96791e-09 0.27 2.67 12 2.6 3.10007 0.568269 0.27 2.67 12 2.6 ***comments*** order of components: salt acids illite feldspar quartz hematite You need to provide 6 mass densities in each line exit quits, type help for help > Component values are: 330 780 190 75 85 100 Absorption and scattering coefficients, and asymmetry parameter found are: a, [m^-1] b, [m^-1] g = b_e=b (1-g) n, [nm^-3] 1.06356e-08 0.112696 0.986609 0.00150907 5.37601e-08 1.12681e-07 0.300677 0.870064 0.0390687 5.35145e-05 0.0014125 0.0339441 0.97477 0.000856417 1.05941e-08 2.7816e-05 0.0152313 0.89642 0.00157766 4.1819e-09 2.80654e-09 0.0172551 0.906504 0.00161328 4.73948e-09 0.00835712 0.0113759 0.837848 0.00184463 5.57586e-09 Final summed values: a_all b_e a b g 0.0372757 0.0464698 0.00979756 0.491179 0.905391 > For 470 nm : number of integration steps is 600 integration goes from -3*sigma to 7*sigma a_all and b_e will be shown Index formulae will be used, additional information in the data file is required You will need to supply mass densities at the program prompt file `inputs' is being fed in Additional information for refractive index reconstruction: c0 c1 c2 d0 b Ice: 2.544 -0.3699 0.02764 Impurity components: 2.692 -0.4117 0.0323 1.3e-07 -8.278 6.112 -1.4907 0.1187 1e-08 0 -4.16919 1.82676 -0.149322 0.00158924 -1.334 3.17103 -0.472823 0.0345476 3.71703e-05 -0.25501 1.545 0 0 1.29965e-07 -8.278 -157.244 51.2775 -4.09954 1.04883 -1.3423 refractive index of ice is 1.31445 density of ice is 0.917 wavelength of the incident light is 470 nm number of components is 6 index real index imag. radius avg. radius RMS concentration density 1.38167 8.28014e-09 0.4 2.03 33 2.2 1.43364 1e-08 0.0695 1.86 171 1.68 1.41762 0.00101969 0.27 2.67 12 2.6 1.56971 3.41472e-05 0.27 2.67 12 2.6 1.545 8.27791e-09 0.27 2.67 12 2.6 3.06007 0.671101 0.27 2.67 12 2.6 ***comments*** order of components: salt acids illite feldspar quartz hematite You need to provide 6 mass densities in each line exit quits, type help for help > Component values are: 330 780 190 75 85 100 Absorption and scattering coefficients, and asymmetry parameter found are: a, [m^-1] b, [m^-1] g = b_e=b (1-g) n, [nm^-3] 3.34969e-08 0.121352 0.98782 0.00147801 5.37601e-08 1.28181e-07 0.376883 0.888269 0.0421097 5.35145e-05 0.00182538 0.0341985 0.974736 0.000863988 1.05941e-08 3.22359e-05 0.015103 0.896491 0.0015633 4.1819e-09 9.00456e-09 0.0171636 0.907625 0.0015855 4.73948e-09 0.0082254 0.0113597 0.839807 0.00181975 5.57586e-09 Final summed values: a_all b_e a b g 0.0153009 0.0494202 0.0100832 0.57606 0.91421 > For 337 nm : number of integration steps is 600 integration goes from -3*sigma to 7*sigma a_all and b_e will be shown Index formulae will be used, additional information in the data file is required You will need to supply mass densities at the program prompt file `inputs' is being fed in Additional information for refractive index reconstruction: c0 c1 c2 d0 b Ice: 2.544 -0.3699 0.02764 Impurity components: 2.692 -0.4117 0.0323 1.3e-07 -8.278 6.112 -1.4907 0.1187 1e-08 0 -4.16919 1.82676 -0.149322 0.00158924 -1.334 3.17103 -0.472823 0.0345476 3.71703e-05 -0.25501 1.545 0 0 1.29965e-07 -8.278 -157.244 51.2775 -4.09954 1.04883 -1.3423 refractive index of ice is 1.32741 density of ice is 0.917 wavelength of the incident light is 337 nm number of components is 6 index real index imag. radius avg. radius RMS concentration density 1.38998 1.3e-07 0.4 2.03 33 2.2 1.45677 1e-08 0.0695 1.86 171 1.68 1.40467 0.00158924 0.27 2.67 12 2.6 1.5894 3.71703e-05 0.27 2.67 12 2.6 1.545 1.29965e-07 0.27 2.67 12 2.6 2.33009 1.04883 0.27 2.67 12 2.6 ***comments*** order of components: salt acids illite feldspar quartz hematite You need to provide 6 mass densities in each line exit quits, type help for help > Component values are: 330 780 190 75 85 100 Absorption and scattering coefficients, and asymmetry parameter found are: a, [m^-1] b, [m^-1] g = b_e=b (1-g) n, [nm^-3] 7.28982e-07 0.142922 0.990187 0.00140256 5.37601e-08 1.83273e-07 0.808652 0.922636 0.0625605 5.35145e-05 0.00337589 0.0323008 0.985237 0.000476849 1.05941e-08 4.9037e-05 0.0147148 0.897327 0.00151081 4.1819e-09 1.86502e-07 0.016773 0.917005 0.00139207 4.73948e-09 0.0081125 0.011117 0.864838 0.00150259 5.57586e-09 Final summed values: a_all b_e a b g 0.0115573 0.0688453 0.0115385 1.02648 0.932931 >