Rayleigh-scattering calculations for the terrestrial atmosphere
- 20 May 1995
- journal article
- Published by Optica Publishing Group in Applied Optics
- Vol. 34 (15) , 2765-2773
- https://doi.org/10.1364/ao.34.002765
Abstract
Rayleigh-scattering cross sections and volume-scattering coefficients are computed for standard air; they incorporate the variation of the depolarization factor with wavelength. Rayleigh optical depths are then calculated for the 1962 U.S. Standard Atmosphere and for five supplementary models. Analytic formulas are derived for each of the parameters listed. The new optical depths can be 1.3% lower to 3% higher at midvisible wavelengths and up to 10% higher in the UV region compared with previous calculations, in which a constant or incorrect depolarization factor was used. The dispersion of the depolarization factor is also shown to affect the Rayleigh phase function slightly, by approximately 1% in the forward, backscattered, and 90° scattering-angle directions.Keywords
This publication has 13 references indexed in Scilit:
- Rayleigh optical depth comparisons from various sourcesApplied Optics, 1990
- On the Rayleigh-Scattering Optical Depth of the AtmosphereJournal of Applied Meteorology, 1981
- Rayleigh scatteringApplied Optics, 1981
- Revised depolarization corrections for atmospheric extinctionApplied Optics, 1980
- New determination of Rayleigh scattering in the terrestrial atmosphereApplied Optics, 1980
- A Redetermination of the Rayleigh Optical Depth and its Application to Selected Solar Radiation ProblemsJournal of Applied Meteorology, 1977
- Dispersion of Air*Journal of the Optical Society of America, 1972
- Aircraft Measurements and Calculations of the Total Downward Flux of Solar Radiation as a Function of AltitudeJournal of the Atmospheric Sciences, 1969
- Tables of the Refractive Index for Standard Air and the Rayleigh Scattering Coefficient for the Spectral Region between 02 and 200 μ and Their Application to Atmospheric OpticsJournal of the Optical Society of America, 1957
- The Dispersion of Standard Air*Journal of the Optical Society of America, 1953