The computer codes that calculate the energy budget of solar and thermal radiation in Global Climate Models (GCMs), our most advanced tools for predicting climate change, have to be computationally efficient in order to not impose undue computational burden to climate simulations. By using approximations to gain execution speed, these codes sacrifice accuracy compared to more accurate, but also much slower, alternatives. International efforts to evaluate the approximate schemes have taken place in the past, but they have suffered from the drawback that the accurate standards were not validated themselves for performance. The manuscript summarizes the main results of the first phase of an effort called "Continual Intercomparison of Radiation...
The requirements for radiation measurements suitable for the understanding, improvement, and verific...
The reliability of two computationally-efficient, simplified radiation codes employed to evaluate th...
A new radiative transfer model combining the efforts of three groups of researchers is discussed. Th...
The demands of accurate predictions of radiative transfer for climate applications are well-document...
The demands of accurate predictions of radiative transfer for climate applications are well-document...
Accurate climate and weather simulations must account for all relevant physical processes and their ...
Broad-band parameterizations for atmospheric radiative transfer were developed for clear and cloudy ...
Most radiation schemes in weather and climate models use the “correlated k distribution” (CKD) metho...
This paper evaluates global mean radiatively important properties of chemistry climate models (CCMs)...
This paper presents a radiative transfer model that has been developed to accurately predict the atm...
Following the finding by the InterComparison of Radiation Codes used in Climate Models (ICRCCM) of l...
The primary goal of SPECTRE is to: close the loopholes by which longwave radiation models have elude...
A detailed description of a parameterization for thermal infrared radiative transfer designed specif...
Monthly averages of solar radiation reaching the Top of the Atmosphere (TOA) as simulated by 20 Gene...
The interaction of clouds with solar and terrestrial radiation is one of the most important topics o...
The requirements for radiation measurements suitable for the understanding, improvement, and verific...
The reliability of two computationally-efficient, simplified radiation codes employed to evaluate th...
A new radiative transfer model combining the efforts of three groups of researchers is discussed. Th...
The demands of accurate predictions of radiative transfer for climate applications are well-document...
The demands of accurate predictions of radiative transfer for climate applications are well-document...
Accurate climate and weather simulations must account for all relevant physical processes and their ...
Broad-band parameterizations for atmospheric radiative transfer were developed for clear and cloudy ...
Most radiation schemes in weather and climate models use the “correlated k distribution” (CKD) metho...
This paper evaluates global mean radiatively important properties of chemistry climate models (CCMs)...
This paper presents a radiative transfer model that has been developed to accurately predict the atm...
Following the finding by the InterComparison of Radiation Codes used in Climate Models (ICRCCM) of l...
The primary goal of SPECTRE is to: close the loopholes by which longwave radiation models have elude...
A detailed description of a parameterization for thermal infrared radiative transfer designed specif...
Monthly averages of solar radiation reaching the Top of the Atmosphere (TOA) as simulated by 20 Gene...
The interaction of clouds with solar and terrestrial radiation is one of the most important topics o...
The requirements for radiation measurements suitable for the understanding, improvement, and verific...
The reliability of two computationally-efficient, simplified radiation codes employed to evaluate th...
A new radiative transfer model combining the efforts of three groups of researchers is discussed. Th...