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Plasma Physics (Physics/ECE/NE 922) Seminar

Schnack Memorial Seminar: Nonlinear Modeling of Mode Locked States Induced by Transient Magnetic Perturbations

Date: Monday, November 13th

Time: 12:00 pm - 1:00 pm

Place: Chamberlin 2241

Speaker: Dr. Matthew Beidler, Department of Engineering Physics, UW Madison

Abstract: Externally applied 3D magnetic fields in tokamaks can penetrate into the plasma and lead to forced magnetic reconnection, and hence magnetic islands, on resonant surfaces. Analytic theory has been reasonably successful in describing many aspects of this paradigm with regard to describing the time asymptotic-steady state [1]. However, understanding the nonlinear evolution into a low-slip, field-penetrated state, especially how MHD events such as sawteeth and ELMs precipitate this transition, is in its early development. We present nonlinear computations employing the extended-MHD code NIMROD, building on previous work [2] by incorporating a temporally varying external perturbation as a simple model for an MHD event that produces resonant magnetic signals. A parametric series of proof-of-principle computations and accompanying analytical theory characterize the transition into a mode-locked state with an emphasis on detailing the temporal evolution properties.

[1] R. Fitzpatrick, Nucl. Fusion 33, 1049 (1993)
[2] M.T. Beidler, J.D. Callen, C.C. Hegna, and C.R. Sovinec, Phys. Plasmas 24, 052508 (2017)

Host: Carl Sovinec

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