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Tokamak ITG-KBM transition benchmarking with the mixed variables/pullback transformation electromagnetic gyrokinetic scheme

M. Cole, A. Mishchenko, A. Bottino, C. S. Chang

2021Physics of Plasmas20 citationsDOIOpen Access PDF

Abstract

Electromagnetic gyrokinetic simulation of high temperature plasma is required to predict confinement in magnetic fusion devices and has posed challenges for existing codes. In this paper, we demonstrate successful global gyrokinetic simulation of the ion temperature gradient-driven mode-kinetic ballooning mode transition in a toroidal fusion plasma test case using the mixed variables/pullback transformation (MV/PT) scheme with the particle-in-cell codes XGC and ORB5, and compare to results from a conventional continuum code from the literature. The MV/PT scheme combines explicit time integration with mitigation of the well-known electromagnetic gyrokinetic “cancelation problem.” We calculate eigenmodes in the electrostatic and parallel vector potentials, and find good agreement in growth rate, real frequency, and the normalized plasma pressure of mode transition.

Topics & Concepts

PhysicsTokamakPlasmaToroidGyrokineticsComputational physicsParticle-in-cellMagnetic confinement fusionTransformation (genetics)Statistical physicsQuantum electrodynamicsMechanicsQuantum mechanicsBiochemistryGeneChemistryMagnetic confinement fusion researchParticle accelerators and beam dynamicsLaser-Plasma Interactions and Diagnostics
Tokamak ITG-KBM transition benchmarking with the mixed variables/pullback transformation electromagnetic gyrokinetic scheme | Litcius