We evaluate the new icosahedral nonhydrostatic atmospheric (ICON-A) general circulation model of the Max Planck Institute for Meteorology that is flexible to be run at grid spacings from a few tens of meters to hundreds of kilometers. A simulation with ICON-A at a low resolution (160 km) is compared to a not-tuned fourfold higher-resolution simulation (40 km). Simulations using the last release of the ECHAM climate model (ECHAM6.3) are also presented at two different resolutions. The ICON-A simulations provide a compelling representation of the climate and its variability. The climate of the low-resolution ICON-A is even slightly better than that of ECHAM6.3. Improvements are obtained in aspects that are sensitive to the representation of o...
We implemented a spectral cumulus parameterization based on a cloud-resolving model (SC scheme) in t...
Clouds and precipitation are an essential element of the climate system, but they are difficult to a...
State-of-the-art Earth System models typically employ grid spacings of O(100 km), too coarse to expl...
International audienceWe evaluate the new icosahedral nonhydrostatic atmospheric (ICON-A) general ci...
We evaluate the new icosahedral non-hydrostatic atmospheric (ICON-A) general circulation model of th...
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...
This work documents the ICON‐Earth System Model (ICON‐ESM V1.0), the first coupled model based on th...
[1] ECHAM6, the sixth generation of the atmospheric general circulation model ECHAM, is described. M...
How the upper-atmosphere branch of the circulation contributes to and interacts with the circulation...
The Hamburg Aerosol Module version 2.3 (HAM2.3) from the ECHAM6.3-HAM2.3 global atmosphere-aerosol m...
Earth system models are fundamental to understanding and projecting climate change. The models have ...
Abstract The ICON framework has been considered for the use in global high-resolution, atmosphere-o...
Earth's equilibrium climate sensitivity (ECS) is the long-term response to doubled atmospheric CO2 a...
State-of-the-art Earth system models typically employ grid spacings of O(100 km), which is too coars...
We implemented a spectral cumulus parameterization based on a cloud-resolving model (SC scheme) in t...
Clouds and precipitation are an essential element of the climate system, but they are difficult to a...
State-of-the-art Earth System models typically employ grid spacings of O(100 km), too coarse to expl...
International audienceWe evaluate the new icosahedral nonhydrostatic atmospheric (ICON-A) general ci...
We evaluate the new icosahedral non-hydrostatic atmospheric (ICON-A) general circulation model of th...
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...
This work documents the ICON‐Earth System Model (ICON‐ESM V1.0), the first coupled model based on th...
[1] ECHAM6, the sixth generation of the atmospheric general circulation model ECHAM, is described. M...
How the upper-atmosphere branch of the circulation contributes to and interacts with the circulation...
The Hamburg Aerosol Module version 2.3 (HAM2.3) from the ECHAM6.3-HAM2.3 global atmosphere-aerosol m...
Earth system models are fundamental to understanding and projecting climate change. The models have ...
Abstract The ICON framework has been considered for the use in global high-resolution, atmosphere-o...
Earth's equilibrium climate sensitivity (ECS) is the long-term response to doubled atmospheric CO2 a...
State-of-the-art Earth system models typically employ grid spacings of O(100 km), which is too coars...
We implemented a spectral cumulus parameterization based on a cloud-resolving model (SC scheme) in t...
Clouds and precipitation are an essential element of the climate system, but they are difficult to a...
State-of-the-art Earth System models typically employ grid spacings of O(100 km), too coarse to expl...