Nonlinear dynamics of the reversed shear Alfvén eigenmode in burning plasmas

WANG 王, Tao 涛; WEI 魏, Shizhao 士朝; BRIGUGLIO, Sergio; VLAD, Gregorio; ZONCA, Fulvio; QIU 仇, Zhiyong 志勇

doi:10.1088/2058-6272/ad15e0

Plasma Sci. Technol.

2024

DOI: 10.1088/2058-6272/ad15e0

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Nonlinear dynamics of the reversed shear Alfvén eigenmode in burning plasmas

Tao 涛 WANG 王,

Shizhao 士朝 WEI 魏,

Sergio BRIGUGLIO

et al.

Abstract: In a tokamak fusion reactor operated at steady state, the equilibrium magnetic field is likely to have reversed shear in the core region, as the noninductive bootstrap current profile generally peaks off-axis. The reversed shear Alfvén eigenmode (RSAE) as a unique branch of the shear Alfvén wave in this equilibrium, can exist with a broad spectrum in wavenumber and frequency, and be resonantly driven unstable by energetic particles (EP). After briefly discussing the RSAE linear properties in burning plasma con… Show more

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The effects of zonal fields on energetic-particle excitations of reversed-shear Alfvén eigenmode: simulation and theory

Chen,

Liu,

et al. 2024

Nucl. Fusion

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Employing both nonlinear gyrokinetic simulation and analytical theory, we have investigated the effects of zonal (electromagnetic) fields on the energetic particle's drive of reversed shear Alfv'en eigenmodes in tokamak plasmas. Contrary to the conventional expectation, simulations with zonal fields turned on and off in the energetic particle dynamics while keeping the full nonlinear dynamicsof the thermal plasma indicate that zonal fields further enhance the instability drive and lead, thus, to a higher saturation level. These puzzling simulation results can be understood analytically in terms of the general fishbone-like dispersion relation with the correspondingly different energetic-particle phase-space structures induced by the zonal fields. Analytical expressions for the zonal fields beat driven by the reversed shear Alfv'en eigenmodes are also derived, and shown to be in good agreement with the simulation results.

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The effects of zonal fields on energetic-particle excitations of reversed-shear Alfvén eigenmode: simulation and theory

Chen,

Liu,

et al. 2024

Nucl. Fusion

View full text Add to dashboard Cite

show abstract

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Nonlinear dynamics of the reversed shear Alfvén eigenmode in burning plasmas

Cited by 1 publication

References 153 publications

The effects of zonal fields on energetic-particle excitations of reversed-shear Alfvén eigenmode: simulation and theory

The effects of zonal fields on energetic-particle excitations of reversed-shear Alfvén eigenmode: simulation and theory

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