MIE Theory Sensitivity Studies. The Effects of Aerosol Complex Refractive Index and Size Distribution Variations on Extinction and Absorption Coefficients. Part 1. Tabulated Computational Results
Abstract
This work contains tabulated data of the Mie volume extinction, absorption, and scattering coefficients, 1/km, as a function of the real part, n, and imaginary part, k, of the complex index of refraction for a wide range of particle size distribution. Lognormal particle size distributions, which possessed geometric mean radii from 0.005 micrometers up to 10 micrometers in radius, and geometric standard deviation from 1.0 up to 2.5, were used in the calculations. The computations were performed at wavelengths 0.55, 0.6943, 1. 06, 3.8, and 10.6 micrometers. Values of real index of refraction from 0.1 up to 6.5 and imaginary index values from 0.001 up to 8.0 were used in the calculations. The results are normalized to a total particle mass of 100 micrograms/cu.m. and a particle density of 2.5 g/cu.cm. The computational results will be used to explore the effect of both the real and imaginary part of the index of refraction on transmission in the 0.55-1.06 micrometers and 1. 06-10.6 micrometers wavelength range. This will determine the extent to which the real and imaginary index influences transmission through the atmosphere and its consequential effect on electro-optical systems.
Document Details
- Document Type
- Technical Report
- Publication Date
- Nov 01, 1977
- Accession Number
- ADA049031
Entities
People
- S. G. Jennings
Organizations
- Atmospheric Sciences Laboratory