Gyrokinetic particle simulation of fast-electron driven beta-induced Aflvén eigenmode

Junyi Cheng,Wenlu Zhang,Yang Chen,Ihor Holod,Jintao Cao,Ding Li,Zhihong Lin

doi:10.1063/1.4948487

Gyrokinetic particle simulation of fast-electron driven beta-induced Aflvén eigenmode

Junyi Cheng, Wenlu Zhang + Show 5 more

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https://doi.org/10.1063/1.4948487

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Journal: Physics of Plasmas	Publication Date: May 1, 2016
Citations: 24	License type: publisher-specific, author manuscript

Affiliation: University of Science and Technology of China, National Laboratory for Superconductivity, Institute of Physics, Chinese Academy of Sciences, University of California, Irvine, Peking University

#Global Gyrokinetic Particle Simulations #Fast Electron #Gyrokinetic Particle Simulation #Drift Kinetic Equation #Toroidal Plasmas #Global Gyrokinetic Simulations #Bounce Resonance #Gyrokinetic Simulation #Fast Direction #Ideal Mode

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The fast-electron driven beta-induced Alfvén eigenmode (e-BAE) in toroidal plasmas is investigated for the first time using global gyrokinetic particle simulations, where the fast electron is described by the drift kinetic equation. The simulation shows that the e-BAE propagates in the fast electron diamagnetic direction and its polarization is close to an ideal MHD mode. The phase space structure shows that only the fast electron processional resonance is responsible for the e-BAE excitations while fast-ion driven BAE can be excited through all the channels, including transit, bounce, and processional resonance.

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Gyrokinetic particle simulation of fast-electron driven beta-induced Aflvén eigenmode