Add to ORKGRadiance and polarization of multiple scattered light from haze and clouds calculated from Stokes vectors by Monte Carlo metho
Passive microwave meteorology techniques for measuring water vapor densities and cloud water conten
Interpretation of TIROS III radiation data to demonstrate practical applications in synoptic weather...
Normalized probability distribution of photon optical paths for radiative transfer equatons to deter...
Light reflection and transmission from clouds with various drop size distributions calculated using ...
Calculations of reflected and transmitted radiance for earth atmosphere by Monte Carlo metho
The degree of polarization and the direction of the plane of polarization are calculated by a Monte ...
The degree of polarization, as well as the direction of the plane of polarization, were calculated b...
The complete radiation field is calculated for scattering layers of various optical thicknesses. Res...
The possibility that the presence of hazy layers contributes to anomalous effects in airplane remote...
Degree of coherence of optical beam traversing atmospheric medium including simulated fog for design...
A digest of technical papers is presented. Topics include aerosol size distribution from spectral at...
Satellite measurement of atmospheric structure by stellar refraction, starlight transmission through...
Ground specular reflection modification of light scattering from planetary atmosphere to
A Monte Carlo procedure, designated as FLASH, was developed for use in computing the intensity and p...
Monte Carlo method applied to pigment particle clusters, and relevance of Mie scattering function to...
Passive microwave meteorology techniques for measuring water vapor densities and cloud water conten
Interpretation of TIROS III radiation data to demonstrate practical applications in synoptic weather...
Normalized probability distribution of photon optical paths for radiative transfer equatons to deter...
Light reflection and transmission from clouds with various drop size distributions calculated using ...
Calculations of reflected and transmitted radiance for earth atmosphere by Monte Carlo metho
The degree of polarization and the direction of the plane of polarization are calculated by a Monte ...
The degree of polarization, as well as the direction of the plane of polarization, were calculated b...
The complete radiation field is calculated for scattering layers of various optical thicknesses. Res...
The possibility that the presence of hazy layers contributes to anomalous effects in airplane remote...
Degree of coherence of optical beam traversing atmospheric medium including simulated fog for design...
A digest of technical papers is presented. Topics include aerosol size distribution from spectral at...
Satellite measurement of atmospheric structure by stellar refraction, starlight transmission through...
Ground specular reflection modification of light scattering from planetary atmosphere to
A Monte Carlo procedure, designated as FLASH, was developed for use in computing the intensity and p...
Monte Carlo method applied to pigment particle clusters, and relevance of Mie scattering function to...
Passive microwave meteorology techniques for measuring water vapor densities and cloud water conten
Interpretation of TIROS III radiation data to demonstrate practical applications in synoptic weather...
Normalized probability distribution of photon optical paths for radiative transfer equatons to deter...