About me

I am interested in improving climate models with modern tools like machine learning and quantum computers and co-lead the DLR QCI project Klim-QML on using quantum computers at the DLR Institute of Atmospheric Physics. I study gravity waves and other dynamical effects in the atmosphere and improve their parametrization in climate models as member of the USMILE ERC project. Before this, I investigated fluid dynamical effects in complex plasmas (model systems made up of microparticles immersed in a plasma) via simulations and experiments on phenomena like turbulence, waves, and vortices.

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Atmospheric Physics

We work on improving climate models using artifical intelligence and quantum computers by changing the way subgrid-scale effects are represented in the models. At the same time, we want to learn more about the atmosphere using these modern tools.

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Complex Plasmas

Complex plasmas are microparticles immersed in a plasma. These microparticles can be used as model systems to study effects on the most basic levels. I am especially intersted in using them for fluid effects such as turbulence.

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