CRC aims at methodological developments for the modelling and computational simulation of complex processes involving many (more than two) interacting scales, driven by real-life applications from the bio-, geo-, and material sciences. In its individual projects, mathematicians cooperate with colleagues from the natural sciences to advance both their modelling capabilities and their insight into concrete multiscale phenomena.
Job description:
Project C06 of CRC develops asymptotic models for mid-latitude atmospheric dynamics. An important focus concerns vortical flows, including tropical cyclones, mid-latitude blockings, and vortex flows emerging from weather fronts. The successful candidate for this position will
(i) extend the asymptotic analysis for tornado-like vortices from [1] to include anelastic effects,
(ii) develop a systematic near-surface boundary layer theory utilizing matched asymptotic expansions,
(iii) publication of this work in a high-level journal of theoretical fluid dynamics.
[1] M. Rodal, D. Margerit, R. Klein, Slender vortex filaments in the Boussinesq Approximation, Phys. Fluids, vol. 36,
The project offers the possibility of pursuing a PhD.
Requirements:
Master degree in Physics, Engineering, or Mathematics.
Desirable:
Hands-on experience with methods of asymptotic analysis.
Insights into the dynamics of slender vortex filaments, experience in the preparation of scientific publications.