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P: Fachverband Plasmaphysik

P 15: Helmholtz Graduate School 3 and Magnetic confinement 3

P 15.2: Vortrag

Mittwoch, 11. März 2020, 14:30–14:55, b305

Geometry and Kinetics of Astrophysical Plasmas: A gyrokinetic approach — •Felipe Nathan de Oliveira Lopes^1,2, Karen Pommois^1,2, Aleksander Mustonen^1,2, Rainer Grauer², and Daniel Told^1,2 — ¹Max Planck Institute for Plasma Physics — ²Ruhr-University Bochum

In the context of astrophysical plasmas, various methods are used in order to study problems such as dissipation of turbulent energy and magnetic reconnection[1][2][3]. The use of fluid models allow us to understand macroscopic phenomena[4], but lacks the dynamics of kinetic physics[5]. On another hand, kinetic models[6] usually consume an enormous amount of computing time. The use of reduced models such as gyrokinetics are foreseen to bridge the gap between the fluid and kinetic approaches[7].

In the present work, we aim to investigate the use of gyrokinetics in two different scenarios. Firstly we are going to consistently derive a hybrid hamiltonian field theoretical system[8, 9, 10], based on the lagragian formulation of a symplectic two-form[11]. In this system, ions are treated fully kinetically, and electrons gyrokinetically. With this model, we wish to develop a cost effective kinetic computational framework. The second aspect of the present work addresses a well known problem in space physics, namely magnetic reconnection with guide field[12]. We start with a gyrokinetic analysis using the code GENE[13]. Firstly we analyze the dynamics of the parallel electric field and reconnection rate on the X point, and proceed with benchmarking GENE with a fully kinetic PIC code.