Using large‐eddy simulations (LES) systematically has the potential to inform parameterizations of subgrid‐scale processes in general circulation models (GCMs), such as turbulence, convection, and clouds. Here we show how LES can be run to simulate grid columns of GCMs to generate LES across a cross section of dynamical regimes. The LES setup approximately replicates the thermodynamic and water budgets in GCM grid columns. Resolved horizontal and vertical transports of heat and water and large‐scale pressure gradients from the GCM are prescribed as forcing in the LES. The LES are forced with prescribed surface temperatures, but atmospheric temperature and moisture are free to adjust, reducing the imprinting of GCM fields on the LES. In both...
A cloud-resolving model is modified to implement the weak temperature gradient approximation in orde...
Stratocumulus clouds are the most common type of boundary layer cloud; their radiative effects stron...
Clouds strongly influence Earth's climate by reflecting and absorbing radiation, transporting latent...
Using large‐eddy simulations (LES) systematically has the potential to inform parameterizations of s...
Advances in high-performance computing have enabled large-eddy simulations (LES) of turbulence, conv...
Large‐eddy simulation (LES) of clouds has the potential to resolve a central question in climate dyn...
As part of an international intercomparison project, the weak temperature gradient (WTG) and damped ...
Large eddy simulations and cloud-resolving models (CRMs) are routinely used to simulate boundary lay...
An uncertain representation of convective clouds has emerged as one ofthe key barriers to our unders...
Large‐eddy simulation (LES) of clouds has the potential to resolve a central question in climate dyn...
Here we present for the first time a proof of concept for an emulation-based method that uses a larg...
As part of an international intercomparison project, a set of single‐column models (SCMs) and cloud‐...
Thesis (Master's)--University of Washington, 2017-03Global climate models (GCMs) with conventional c...
International audience[1] A surrogate climate change is designed to investigate low cloud feedbacks ...
The uncertainty in polar cloud feedbacks calls for process understanding of the cloud response to cl...
A cloud-resolving model is modified to implement the weak temperature gradient approximation in orde...
Stratocumulus clouds are the most common type of boundary layer cloud; their radiative effects stron...
Clouds strongly influence Earth's climate by reflecting and absorbing radiation, transporting latent...
Using large‐eddy simulations (LES) systematically has the potential to inform parameterizations of s...
Advances in high-performance computing have enabled large-eddy simulations (LES) of turbulence, conv...
Large‐eddy simulation (LES) of clouds has the potential to resolve a central question in climate dyn...
As part of an international intercomparison project, the weak temperature gradient (WTG) and damped ...
Large eddy simulations and cloud-resolving models (CRMs) are routinely used to simulate boundary lay...
An uncertain representation of convective clouds has emerged as one ofthe key barriers to our unders...
Large‐eddy simulation (LES) of clouds has the potential to resolve a central question in climate dyn...
Here we present for the first time a proof of concept for an emulation-based method that uses a larg...
As part of an international intercomparison project, a set of single‐column models (SCMs) and cloud‐...
Thesis (Master's)--University of Washington, 2017-03Global climate models (GCMs) with conventional c...
International audience[1] A surrogate climate change is designed to investigate low cloud feedbacks ...
The uncertainty in polar cloud feedbacks calls for process understanding of the cloud response to cl...
A cloud-resolving model is modified to implement the weak temperature gradient approximation in orde...
Stratocumulus clouds are the most common type of boundary layer cloud; their radiative effects stron...
Clouds strongly influence Earth's climate by reflecting and absorbing radiation, transporting latent...