Models for infrared atmospheric radiation
Abstract
Line and band models for infrared spectral absorption are discussed. Radiative transmittance and integrated absorptance of Lorentz, Doppler, and voigt line profiles were compared for a range of parameters. It was found that, for the intermediate path lengths, the combined Lorentz-Doppler (Voigt) profile is essential in calculating the atmospheric transmittance. Narrow band model relations for absorptance were used to develop exact formulations for total absorption by four wide band models. Several continuous correlations for the absorption of a wide band model were compared with the numerical solutions of the wide band models. By employing the line-by-line and quasi-random band model formulations, computational procedures were developed for evaluating transmittance and upwelling atmospheric radiance. Homogeneous path transmittances were calculated for selected bands of CO, CO2, and N2O and compared with experimental measurements. The upwelling radiance and signal change in the wave number interval of the CO fundamental band were also calculated.
- Publication:
-
Unknown
- Pub Date:
- June 1976
- Bibcode:
- 1976miar.rept.....T
- Keywords:
-
- Atmospheric Attenuation;
- Atmospheric Radiation;
- Infrared Radiation;
- Air Pollution;
- Atmospheric Composition;
- Carbon Dioxide;
- Carbon Monoxide;
- Mathematical Models;
- Nitrogen Oxides;
- Pollution Monitoring;
- Radiance;
- Transmittance;
- Geophysics