The regional atmospheric model Consortium for Small-scale Modeling (COSMO) coupled to the Multi-Scale Chemistry Aerosol Transport model (Muscat) is extended in this work to represent aerosol-cloud interactions. Previously, only one-way interactions (scavenging of aerosol and in-cloud chemistry) and aerosol-radiation interactions were included in this model. The new version allows for a microphysical aerosol effect on clouds. For this, we use the optional two-moment cloud microphysical scheme in COSMO and the online-computed aerosol information for cloud condensation nuclei concentrations (Cccn), replacing the constant Cccn profile. In the radiation scheme, we have implemented a droplet-size-dependent cloud optical depth, allowing now for ae...
Clouds can reflect, absorb and re-emit radiation, thereby inducing a cooling or warming effect on th...
The realistic representation of aerosol-cloud interactions is of primary importance for accurate cli...
The topic of cloud radiative forcing associated with the atmospheric aerosol has been the focus of i...
We have extended the coupled mesoscale atmosphere and chemistry model COSMO-ART to account for the ...
In this thesis, the impact of natural and anthropogenic aerosol particles on cloud properties and pr...
Representing the number and mass of cloud and aerosol particles independently in a climate, weather ...
Online coupled meteorology–chemistry models permit the description of the aerosol–radiation (ARI) a...
Representing large-scale co-variability between variables related to aerosols, clouds and radiation ...
Possible aerosol-cloud-precipitation effects over Germany are investigated using the COSMO model in ...
Satellite-based cloud top effective radius retrieved by the CERES Science Team were combined with si...
Anthropogenic aerosol effects on climate produce one of the largest uncertainties in estimates of ra...
The complexity of atmospheric aerosol causes large uncertainties in its parameterization in atmosphe...
To reduce uncertainties and hence to obtain a better estimate of aerosol (direct and indirect) radia...
Despite large efforts and decades of research, the scientific understanding of how aerosols impact c...
Cloud droplets never form in the atmosphere without a seed in the form of an aerosol particle. Chang...
Clouds can reflect, absorb and re-emit radiation, thereby inducing a cooling or warming effect on th...
The realistic representation of aerosol-cloud interactions is of primary importance for accurate cli...
The topic of cloud radiative forcing associated with the atmospheric aerosol has been the focus of i...
We have extended the coupled mesoscale atmosphere and chemistry model COSMO-ART to account for the ...
In this thesis, the impact of natural and anthropogenic aerosol particles on cloud properties and pr...
Representing the number and mass of cloud and aerosol particles independently in a climate, weather ...
Online coupled meteorology–chemistry models permit the description of the aerosol–radiation (ARI) a...
Representing large-scale co-variability between variables related to aerosols, clouds and radiation ...
Possible aerosol-cloud-precipitation effects over Germany are investigated using the COSMO model in ...
Satellite-based cloud top effective radius retrieved by the CERES Science Team were combined with si...
Anthropogenic aerosol effects on climate produce one of the largest uncertainties in estimates of ra...
The complexity of atmospheric aerosol causes large uncertainties in its parameterization in atmosphe...
To reduce uncertainties and hence to obtain a better estimate of aerosol (direct and indirect) radia...
Despite large efforts and decades of research, the scientific understanding of how aerosols impact c...
Cloud droplets never form in the atmosphere without a seed in the form of an aerosol particle. Chang...
Clouds can reflect, absorb and re-emit radiation, thereby inducing a cooling or warming effect on th...
The realistic representation of aerosol-cloud interactions is of primary importance for accurate cli...
The topic of cloud radiative forcing associated with the atmospheric aerosol has been the focus of i...