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Abstract

The multiple scale derivative expansion method is used to manipulate the electron drift kinetic equation, following the theoretical framework of drift wave–zonal flow system developed by Zhang et al. [Zhang Y Z, Liu Z Y, Mahajan S M, Xie T, Liu J 2017 Phys. Plasmas 24122304 ]. At the zeroth order it is the linear eigenmode equation describing the trapped electron mode on a mirco-scale. At the first order it is the envelop equation for trapped electron mode modulated by the zonal flow on a meso-scale. The eigenmode equation has been solved by Xie et al. [Xie T, Zhang Y Z, Mahajan S M, Wu F, He Hongda, Liu Z Y 2019 Phys. Plasmas 26022503 ] to obtain the eigenvalue and two-dimensional mode structure of trapped electron mode. These are essential components in calculating group velocities contained in the envelop equation. The radial group velocity arises from the geodesic curvature of magnetic field in tokamak. The poloidal group velocity stems from the normal curvature and diamagnetic drift velocity, which yields the mapping between the poloidal angle and time. Since the radial group velocity is also a function of poloidal angle, it is mapped to a periodic function of time with a period of milliseconds. The numerical results indicate the rapid zero-crossing, which is significant in the drift wave – zonal flow system and provides a sound foundation for studying zonal flow driven by trapped electron mode.

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Authors and contacts

Corresponding author:Liu Zhao-Yang,lzy0928@mail.ustc.edu.cn

Funds:Project supported by the National Natural Science Foundation of China (Grant Nos. U1967206, 11975231, 11805203, 11775222), the National MCF Energy R & D Program, China (Grant Nos. 2018YFE0311200, 2017YFE0301204), and the Key Research Program of Frontier Sciences, Chinese Academy of Sciences (Grant No. QYZDB-SSW-SYS004)

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R/m	a/m	${r_j}/a$	${T_{\rm{e}}}$/eV	${\tau _{\rm{e}}}$	q	B/T	$\hat s$	${L_n}/R$	${\eta _{\rm{e}}}$	${\eta _{\rm{i}}}$	n
1.65	0.4	0.41	250	10	1	1.35	1	0.1	1	0	–44

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Vol. 70, Issue 11 - 2021-06-05

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