Experimental evidence of nonlinear avalanche dynamics of energetic particle modes

Liming Yu ,J Q Dong,L Liu,F Zonca,X.q Ji ,Zhiyong Qiu ,Peng Shi ,Rui Ma ,T.b Wang ,B.s Yuan ,Jianyong Cao ,Y.g Li ,Qingwei Yang ,Wei Chen ,Tao Wang ,Liu Chen ,Z.b Shi ,X.t Ding ,Yi Liu,M Xu

doi:10.1209/0295-5075/ac3ccf

Liming Yu , J Q Dong + Show 18 more

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https://doi.org/10.1209/0295-5075/ac3ccf

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Journal: Europhysics Letters	Publication Date: Jun 1, 2022
Citations: 4	License type: iop-standard

Affiliation: Southwestern Institute of Physics

Abstract

Recent observations in HL-2A tokamak give new experimental evidences of energetic particle mode (EPM) avalanche. In a strong EPM burst, the mode structure propagates radially outward within two hundred Alfvén time, while the frequency of the dominant mode changes self-consistently to maximize wave-particle power exchange and mode growth. This suggests that significant energetic particle transport occurs in this avalanche phase, in agreement with theoretical framework of EPM convective amplification. A simplified relay runner model yields satisfactory interpretations of the measurements. The results can help understanding the nonlinear dynamics of energetic particle driven modes in future burning plasmas, such as ITER.

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