Vulnerability of Passive Microwave Snowfall Retrievals to Physical ...
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Jun 20, 2022 · This article studies the potential effects of terrestrial snow-cover depth, density, and grain size on high-frequency channels 89 and 166 GHz of the radiometer.
Harlow, “Simulation of the microwave emission of multi-layered 1051 snowpacks using the dense media radiative transfer theory: The DMRT- 1052. ML model ...
The uncertainty of passive microwave retrievals of snowfall is notoriously high where high-frequency surface emissivity is significantly reduced and varies ...
The uncertainty of passive microwave retrievals of snowfall is notoriously high where high-frequency surface emissivity is significantly reduced and varies ...
Increased scattering reduces the surface emissivity depending on physical and microphysical properties of snowpack such as depth, density, and the distribution ...
Missing: Perspective Theory.
Using the dense media radiative transfer theory, this article studies the potential effects of terrestrial snow-cover depth, density, and grain size on high- ...
Abstract—The uncertainty of passive microwave retrievals of snowfall is notoriously high where high-frequency surface emis- sivity is significantly reduced ...
NASA/ADS · Vulnerability of Passive Microwave Snowfall Retrievals to Physical Properties of Snowpack: A Perspective From Dense Media Radiative Transfer Theory.
The uncertainty of passive microwave retrievals of snowfall is notoriously high where high-frequency surface emissivity is significantly reduced and varies ...
Vulnerability of Passive Microwave Snowfall Retrievals to Physical ...
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