Radiative Transfer & Remote Sensing Radiative Transfer & Remote Sensing Overview Remote sensing (satellite and ground-based) is increasingly being used as technique to probe the Earth’s atmosphere, ...

Theoretical aspects of radiative transfer – Understanding and modeling the propagation of radiation through the atmosphere, accounting for absorption, emission, and scattering. Atmospheric parameter ...

His teaching expertise includes the fields of atmospheric radiative transfer, cloud physics, atmospheric dynamics, and synoptic meteorology, and he is actively involved in numerous research ...

Technical Terms Radiative Transfer: The process by which radiation is absorbed, emitted, and scattered as it travels through the atmosphere.

Radiative transfer calculations suggest that brown carbon accounts for about 24% of combined black and brown carbon warming effect at the tropopause.

Ferenc Miskolczi is an atmospheric physicist specializing in atmospheric radiative transfer. As a senior principal scientist he worked on several NASA projects related to atmospheric remote sensing ...

All remote sensing applications and radiative flux estimations are laid upon the theory of radiative transfer in the atmosphere. Some of the research topics include the improvements of the simulations ...

Night-time warming is vital, but conventional methods like active heaters are energy-intensive and contribute to carbon emissions. Scientists from China proposed an innovative nanophotonic-based ...

ATOC 5235: Introduction to Atmospheric Radiative Transfer and Remote Sensing Up to 3 semester hours of ATOC 5900 (Independent Study), and/or ATOC 6020 (Seminar in Atmospheric and Oceanic Sciences) may ...

Among the physical processes of land surfaces, canopy radiative transfer is especially important. It plays a key role in controlling land-atmosphere flux exchanges by determining surface albedo ...