How the upper-atmosphere branch of the circulation contributes to and interacts with the circulation of the middle and lower atmosphere is a research area with many open questions. Inertia-gravity waves, for instance, have moved in the focus of research as they are suspected to be key features in driving and shaping the circulation. Numerical atmospheric models are an important pillar for this research. We use the ICOsahedral Non-hydrostatic (ICON) general circulation model, which is a joint development of the Max Planck Institute for Meteorology (MPI-M) and the German Weather Service (DWD), and provides, e.g., local mass conservation, a flexible grid nesting option, and a non-hydrostatic dynamical core formulated on an icosahedral-triangul...
The stratosphere is one of the main potential sources for subseasonal to seasonal predictability in ...
Abstract We describe the ocean general circulation model ICON-O of the Max Planck Institute for Mete...
Large-eddy simulations (LES) with the new ICOsahedral Non-hydrostatic atmosphere model (ICON) coveri...
ICON‐A is the new icosahedral non‐hydrostatic (ICON) atmospheric general circulation model in a conf...
ICON-A is the new icosahedral nonhydrostatic (ICON) atmospheric general circulation model in a confi...
We evaluate the new icosahedral non-hydrostatic atmospheric (ICON-A) general circulation model of th...
We evaluate the new icosahedral nonhydrostatic atmospheric (ICON-A) general circulation model of the...
International audienceWe evaluate the new icosahedral nonhydrostatic atmospheric (ICON-A) general ci...
This work documents ICON-ESM 1.0, the first version of a coupled model based 19 on the ICON framewor...
ICON (ICOsahedral Nonhydrostatic) is a unified modeling system for global numerical weather predicti...
Atmospheric composition studies on weather and climate timescales require flexible, scalable models....
Large-eddy simulations (LES) with the new ICOsahedral Non-hydrostatic atmosphere model (ICON) coveri...
Stratospheric variability is one of the main potential sources for sub-seasonal to seasonal predicta...
The Middle and Upper Atmosphere Model (MUAM) is a mechanistic, 3-D general circulation model extendi...
The single-column mode (SCM) of the ICON (ICOsahedral Nonhydrostatic) modeling framework is presente...
The stratosphere is one of the main potential sources for subseasonal to seasonal predictability in ...
Abstract We describe the ocean general circulation model ICON-O of the Max Planck Institute for Mete...
Large-eddy simulations (LES) with the new ICOsahedral Non-hydrostatic atmosphere model (ICON) coveri...
ICON‐A is the new icosahedral non‐hydrostatic (ICON) atmospheric general circulation model in a conf...
ICON-A is the new icosahedral nonhydrostatic (ICON) atmospheric general circulation model in a confi...
We evaluate the new icosahedral non-hydrostatic atmospheric (ICON-A) general circulation model of th...
We evaluate the new icosahedral nonhydrostatic atmospheric (ICON-A) general circulation model of the...
International audienceWe evaluate the new icosahedral nonhydrostatic atmospheric (ICON-A) general ci...
This work documents ICON-ESM 1.0, the first version of a coupled model based 19 on the ICON framewor...
ICON (ICOsahedral Nonhydrostatic) is a unified modeling system for global numerical weather predicti...
Atmospheric composition studies on weather and climate timescales require flexible, scalable models....
Large-eddy simulations (LES) with the new ICOsahedral Non-hydrostatic atmosphere model (ICON) coveri...
Stratospheric variability is one of the main potential sources for sub-seasonal to seasonal predicta...
The Middle and Upper Atmosphere Model (MUAM) is a mechanistic, 3-D general circulation model extendi...
The single-column mode (SCM) of the ICON (ICOsahedral Nonhydrostatic) modeling framework is presente...
The stratosphere is one of the main potential sources for subseasonal to seasonal predictability in ...
Abstract We describe the ocean general circulation model ICON-O of the Max Planck Institute for Mete...
Large-eddy simulations (LES) with the new ICOsahedral Non-hydrostatic atmosphere model (ICON) coveri...