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Collisional broadening of nonlinear resonant wave-particle interactions
Journal article   Peer reviewed

Collisional broadening of nonlinear resonant wave-particle interactions

Peter J. Catto and Elizabeth A. Tolman
Journal of plasma physics, Vol.87(6), 905870606
12/01/2021
DOI: 10.1017/S0022377821001069
url
https://www.osti.gov/biblio/1886672View
Open Access

Abstract

A general procedure for understanding plasma behaviour when resonant wave-particle interactions are the sole destabilizing and transport mechanism or only heating and/or current drive source is highlighted without recourse to involved numerical or analytical treatments. These phenomena are characterized by transport that appears to be collisionless even though collisions play a central role in narrow collisional boundary layers. The order of magnitude estimates, which include nonlinear effects, are shown to provide expressions in agreement with the principal results of recent toroidal Alfven eigenmode (TAE), toroidal magnetic field ripple, and heating and current drive treatments. More importantly, the retention of nonlinearities leads to new estimates of the alpha particle energy diffusivity at saturation for TAE modes, and the ripple threshold at which superbanana plateau evaluations of alpha particle transport are modified by nonlinear radial drift effects. In addition, the estimates indicate when quasilinear descriptions for heating and current drive will begin to fail. The phenomenological procedure demonstrates that in magnetic fusion relevant plasmas, narrow collisional boundary layers must be retained for resonant wave-particle interactions as they enhance the role of collisions, and make stochastic particle motion unlikely to be more important than other nonlinear processes.
 Physical Sciences Physics Physics, Fluids & Plasmas Science & Technology

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