Litcius/Paper detail

Global E × B flow pattern formation and saturation

Lei Qi, M. Choi, M. Leconte, T. S. Hahm, Jae-Min Kwon

2022Nuclear Fusion13 citationsDOIOpen Access PDF

Abstract

Abstract The E × B flow staircase-like pattern observed in the first principle gyrokinetic numerical experiments of tokamak fusion plasmas forms due to a nonlinear time delay. Simulations demonstrate a finite time delay between the staircase occurrence in particle transport and that in the density profile. This novel finding shows that instability can arise from perturbations in transport and then influence the background turbulence. E × B flow staircase plays roles not only in shearing the transport but also as a nonlinear saturation mechanism of staircase instability. Experimental measurements in KSTAR tokamak L-mode plasmas are consistent with the numerical findings.

Topics & Concepts

KSTARTokamakTurbulenceInstabilityPlasmaShearing (physics)Nonlinear systemPhysicsMechanicsZonal flow (plasma)Saturation (graph theory)Plasma instabilityShear flowNuclear physicsMathematicsThermodynamicsQuantum mechanicsCombinatoricsMagnetic confinement fusion researchIonosphere and magnetosphere dynamicsLaser-Plasma Interactions and Diagnostics