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17–22 Oct 2016
Kyoto International Conference Center
Japan timezone

Kinetic simulations of the full O-X-B mode conversion process and the deteriorating effect of high power levels

19 Oct 2016, 14:00
4h 45m
Kyoto International Conference Center

Kyoto International Conference Center

Takaragaike, Sakyo-ku, Kyoto 606-0001 Japan
Poster THW - Magnetic Confinement Theory and Modelling: Wave–plasma interactions; current drive; heating; energetic particles Poster 4

Speaker

Dr Alexey Arefiev (Institute for Fusion Studies, University of Texas at Austin, USA)

Description

High-performance spherical tokamaks are usually overdense, so regular electron cyclotron emission is blocked. However, electron Bernstein waves, generated at the local cyclotron frequency (and its harmonics) in the core may be observed outside the plasma via a mode conversion process that takes place typically in the plasma edge between an electromagnetic mode and the (electrostatic) electron Bernstein wave. Understanding the details of this mode conversion process is important in tokamaks with over-dense plasmas both for the interpretation of microwave diagnostic data and to assess the feasibility of EBW heating and/or current drive. To this end, we have performed the first ever 2-D fully kinetic simulations of O-X-B mode conversion using the particle-in-cell code EPOCH. In addition to benchmarking these numerical results against the linear dispersion relation [AIP Conf. Proc. 1689, 090003 (2015)], we have also investigated nonlinearities associated with a larger incident intensity and the effect of a steeper (and more realistic) density gradient at the mode conversion layer. Simulations were performed on the HELIOS supercomputer at the IFERC-CSC, Rokkasho, Japan and on TACC supercomputers at the University of Texas at Austin.
Country or International Organization United States
Paper Number TH/P4-26

Primary author

Dr Alexey Arefiev (Institute for Fusion Studies, University of Texas at Austin, USA)

Co-authors

Dr A. Köhn (DeMPIPGarc) Mr E. Du Toit (UkUYork) Dr E. Holzhauer (IGVP, University of Stuttgart, Stuttgart, Germany) Prof. R. G. L. Vann (UkUYork) Dr V. Shevchenko (UkCCFE)

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