Add to ORKGThe inversion problem, I.E., determining the atmospheric turbidity from polarimetry of radiation emerging from the earth's atmosphere, is presented. A major theoretical advance was made by finding a successful approximation for the forward peak scattering of aerosols together with a simplified characterization of particle size distributions. An engineering model of a multibarreled photopolarimeter suitable for operation from a satellite was evaluated in laboratory and high altitude jet aircraft tests. Comparison of the data from flights over the Mexican desert with theoretical curves for a Rayleigh atmosphere with negligible turbidity is in agreement
All-sky distributions of the polarized radiance are measured using an automated fish-eye camera syst...
The sunlight entering the earth atmosphere interacts with gas molecules and aerosols suspended in th...
Atmospheric turbidity is usually measured using either a pyrheliometer fitted with a red RG630 filte...
Attempts made to establish the viability of the polarimeter as a ground based remote probe of atmosp...
The complete radiation field including polarization is calculated for a model of the real atmosphere...
Abstract. Although solar radiation initially is unpolarized when entering the Earth’s atmosphere, it...
The degree of polarization, as well as the direction of the plane of polarization, were calculated b...
Abstract. Most current and proposed satellite remote sensing of tropospheric aerosols relies upon ra...
Satellite remote sensing is the only method that is able to measure climate forcing atmospheric cons...
Satellite remote measurements of stratospheric aerosol and ozone profiles using the solar occultatio...
An accurate and generalized global retrieval algorithm from satellite observations is a prerequisite...
AbstractAll-sky distributions of the polarized radiance are measured using an automated fish-eye cam...
Recently, polarimetry has been used to enhance classical photometry to infer aerosol optical propert...
Solar radiation scattered within the atmosphere by atmospheric particles and aerosol particles has b...
International audiencePolarimetry is one of the most promising types of remote sensing for improved ...
All-sky distributions of the polarized radiance are measured using an automated fish-eye camera syst...
The sunlight entering the earth atmosphere interacts with gas molecules and aerosols suspended in th...
Atmospheric turbidity is usually measured using either a pyrheliometer fitted with a red RG630 filte...
Attempts made to establish the viability of the polarimeter as a ground based remote probe of atmosp...
The complete radiation field including polarization is calculated for a model of the real atmosphere...
Abstract. Although solar radiation initially is unpolarized when entering the Earth’s atmosphere, it...
The degree of polarization, as well as the direction of the plane of polarization, were calculated b...
Abstract. Most current and proposed satellite remote sensing of tropospheric aerosols relies upon ra...
Satellite remote sensing is the only method that is able to measure climate forcing atmospheric cons...
Satellite remote measurements of stratospheric aerosol and ozone profiles using the solar occultatio...
An accurate and generalized global retrieval algorithm from satellite observations is a prerequisite...
AbstractAll-sky distributions of the polarized radiance are measured using an automated fish-eye cam...
Recently, polarimetry has been used to enhance classical photometry to infer aerosol optical propert...
Solar radiation scattered within the atmosphere by atmospheric particles and aerosol particles has b...
International audiencePolarimetry is one of the most promising types of remote sensing for improved ...
All-sky distributions of the polarized radiance are measured using an automated fish-eye camera syst...
The sunlight entering the earth atmosphere interacts with gas molecules and aerosols suspended in th...
Atmospheric turbidity is usually measured using either a pyrheliometer fitted with a red RG630 filte...