Atmospheric Dynamics (Prof. Heini Wernli)

The chaotic and complex atmospheric flow can lead to the development of high-impact weather systems, e.g., cyclones and fronts that produce heavy rain or snow. The evolution of these systems is governed by dry and moist dynamical processes and accompanied by coherent flow patterns. Research is conducted to better understand the genesis, structure and interaction of these systems, and to improve our predictive capabilities. This involves dynamically based diagnostic analyses of atmospheric data sets, prognostic simulations with numerical models of varying complexity, and a detailed observation and model-based investigation of stable water isotopes in atmospheric waters.

Groufo_2022
Members of the atmospheric dynamics group. From left to right, front row: Marc Federer, Lukas Jansing, Nicolai Krieger, Dominik Büeler, Killian Brennan, Mauro Hermann; second row: Katharina Heitmann, Vishnu Selvakumar, Michael Sprenger, Hanna Joos, Katharina Hartmuth, Matthias Röthlisberger, Heini Wernli, Ellina Agaiar, Moshe Armon, Tuule Müürsepp; back row: Franco Lee, Lukas Papritz, Louis Frey, Alexander Scherrmann, Stefano Ubbiali. Missing: Franziska Scholder-Aemisegger, Hanin Binder.
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