Convection is the primary transport process in the Earth's atmosphere. About two-thirds of the Earth's rainfall and severe floods derive from convection. In addition, two-thirds of the global rain falls in the tropics, while the associated latent heat release accounts for three-fourths of the total heat energy for the Earth's atmosphere. Cloud-resolving models (CRMs) have been used to improve our understanding of cloud and precipitation processes and phenomena from micro-scale to cloud-scale and mesoscale as well as their interactions with radiation and surface processes. CRMs use sophisticated and realistic representations of cloud microphysical processes and can reasonably well resolve the time evolution, structure, and life cycles of clo...
The microphysical parameterization used for stratiform clouds in the ECHAM5 climate model is now ext...
The mechanisms of summertime diurnal precipitation in the US Great Plains were examined with the two...
We implemented and began to evaluate an alternative convection parameterization for the NASA Goddard...
The response of cloud systems to their environment is an important link in a chain of processes resp...
General circulation models (GCMs) allow atmospheric scientists to tinker with atmospheric processes ...
Recently, a detailed spectral-bin microphysical scheme was implemented into the Goddard Cumulus Ense...
In recent years, exponentially increasing computer power has extended Cloud Resolving Model (CRM) in...
The importance of precipitating mesoscale convective systems (MCSs) has been quantified from TRMM pr...
Cloud-system resolving models (CRM), which are based on the nonhydrostatic equations of motion and t...
A Goddard bulk microphysical parameterization is implemented into the Weather Research and Forecasti...
Convective processes play a critical role in the Earth’s energy balance through the redistribution o...
Numerical cloud models, which are based the non-hydrostatic equations of motion, have been extensive...
Cloud systems demonstrate great influence on Earth’s climate with both radiative and precipitation p...
Despite over 70 years of extensive research, the factors controlling how clouds entrain environmenta...
Convective processes affect large-scale environments through cloud-radiation interaction, cloud micr...
The microphysical parameterization used for stratiform clouds in the ECHAM5 climate model is now ext...
The mechanisms of summertime diurnal precipitation in the US Great Plains were examined with the two...
We implemented and began to evaluate an alternative convection parameterization for the NASA Goddard...
The response of cloud systems to their environment is an important link in a chain of processes resp...
General circulation models (GCMs) allow atmospheric scientists to tinker with atmospheric processes ...
Recently, a detailed spectral-bin microphysical scheme was implemented into the Goddard Cumulus Ense...
In recent years, exponentially increasing computer power has extended Cloud Resolving Model (CRM) in...
The importance of precipitating mesoscale convective systems (MCSs) has been quantified from TRMM pr...
Cloud-system resolving models (CRM), which are based on the nonhydrostatic equations of motion and t...
A Goddard bulk microphysical parameterization is implemented into the Weather Research and Forecasti...
Convective processes play a critical role in the Earth’s energy balance through the redistribution o...
Numerical cloud models, which are based the non-hydrostatic equations of motion, have been extensive...
Cloud systems demonstrate great influence on Earth’s climate with both radiative and precipitation p...
Despite over 70 years of extensive research, the factors controlling how clouds entrain environmenta...
Convective processes affect large-scale environments through cloud-radiation interaction, cloud micr...
The microphysical parameterization used for stratiform clouds in the ECHAM5 climate model is now ext...
The mechanisms of summertime diurnal precipitation in the US Great Plains were examined with the two...
We implemented and began to evaluate an alternative convection parameterization for the NASA Goddard...