Studying Climate Change through the Atmospheric Radiative Transfer Process
AER scientists focus on the study of atmospheric radiative processes and their relationship to changes in the earth's climate system. Particular emphasis is placed on the spectral characteristics of radiative processes to attain a better understanding of radiative effects associated with atmospheric processes. A principal objective of our work is the interpretation and improvement of model performance based on spectral radiative observations. The research efforts of the program have four principal themes:
- the development of detailed spectral models incorporating the effects of atmospheric constituents including molecules, clouds and aerosols
- the detailed spectral validation of these models against atmospheric data
- the development of radiatively accurate but computationally efficient radiative transfer models
- research studies on the effects of improved physics including improved radiation in climate models
A major effort is directed to the study of spectral cooling rates and the radiative forcing to be expected from effects due both to human and natural influences. This research is currently focused on water vapor, carbon dioxide, ozone and the halocarbons. The studies and related models span the full spectral regime from the microwave to the ultraviolet and include scattering as well as absorption processes. Results of these research efforts have been incorporated into a radiation model for climate studies of cloud-radiation feedback and climate-chemistry interaction.
Ultra-fast Radiative Transfer Model:
Our Experts:
Jean-Luc Moncet
Shepard A. Clough
Eli Mlawer