Non-resonant destabilization of (1/1) internal kink mode by suprathermal electron pressure

L Delgado‐Aparicio ,L Sugiyama,S Wukitch,P E Phillips,R Mumgaard,N Bertelli,R Parker,I Faust,S Wolfe,E Marmar,M Greenwald,J E Rice,S Shiraiwa,A Hubbard,J Irby,G Wallace,R Granetz,C Gao,W L Rowan,N N Gorelenkov ,Seung Gyou Baek ,Steve Scott ,J W Hughes ,D Gates ,Robert R Wilson

doi:10.1063/1.4919964

Non-resonant destabilization of (1/1) internal kink mode by suprathermal electron pressure

L Delgado‐Aparicio , L Sugiyama + Show 23 more

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https://doi.org/10.1063/1.4919964

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Journal: Physics of plasmas	Publication Date: May 1, 2015
Citations: 9	License type: publisher-specific-oa

Affiliation: Princeton Plasma Physics Laboratory, Plasma Technology (United States), Fusion Academy, Fusion (United States), The University of Texas at Austin

#Thermal Plasma Pressure #Internal Kink Mode + Show 8 more

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Abstract

New experimental observations are reported on the structure and dynamics of short-lived periodic (1, 1) “fishbone”-like oscillations that appear during radio frequency heating and current-drive experiments in tokamak plasmas. For the first time, measurements can directly relate changes in the high energy electrons to the mode onset, saturation, and damping. In the relatively high collisionality of Alcator C-Mod with lower hybrid current drive, the instability appears to be destabilized by the non-resonant suprathermal electron pressure—rather than by wave-particle resonance, rotates toroidally with the plasma and grows independently of the (1, 1) sawtooth crash driven by the thermal plasma pressure.

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