Bulletin of the American Physical Society
60th Annual Meeting of the APS Division of Plasma Physics
Volume 63, Number 11
Monday–Friday, November 5–9, 2018; Portland, Oregon
Session PP11: Poster Session VI: Relativistic Laser Plasma Interaction and Beam Physics; Boundary; MHD and Stability, Transients; FRC; Dusty Plasmas; Basic Studies; Computational and Diagnostic Methods (2:00pm-5:00pm)
Wednesday, November 7, 2018
OCC
Room: Exhibit Hall A1&A
Abstract ID: BAPS.2018.DPP.PP11.97
Abstract: PP11.00097 : Simulation of FRC Equilibrium and Global Stability
Presenter:
Sean A Dettrick
(TAE Technologies, Inc)
Authors:
Sean A Dettrick
(TAE Technologies, Inc)
Francesco Ceccherini
(TAE Technologies, Inc)
Laura Galeotti
(TAE Technologies, Inc)
Kevin Hubbard
(TAE Technologies, Inc)
Daniel C Barnes
(TAE Technologies, Inc)
and the TAE Team
(TAE Technologies, Inc)
A Field-Reversed Configuration (FRC) is a high beta self-organized plasma where the current which closes the field lines is carried by the plasma itself. The shape and position of the closed field line region is determined by the external magnetic field pressure and by the profile of plasma pressure inside the separatrix and in the scrape-off layer. The internal plasma pressure profiles affect the stability of the plasma to global (low order) modes. Three external actuators which also affect the global stability of FRCs include the external magnetic coils, neutral-beam injection which creates a population of fast ions, and concentric electrode biasing. We use optimization techniques to fit an FRC equilibrium code to the experimental diagnostics of typical C-2W discharges. We use the generalized Ohm’s law hybrid PIC code, FPIC, to study the global stability of the resulting FRC equilibria, subject to the three external actuators. The results are used to assist with interpretation of C-2W experimental results. The simulations were performed at ALCF using computer time provided by the 2018 INCITE program.
To cite this abstract, use the following reference: http://meetings.aps.org/link/BAPS.2018.DPP.PP11.97
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