Effects of bootstrap current on magnetic configuration in Chinese first quasi-axisymmetric stellarator

Neoclassical properties in quasi-axisymmetric (QA) stellarators are analogous to these in tokamaks. Consequently, a substantial bootstrap current could significantly modify the MHD equilibrium properties of a QA stellarator, which is an important characteristic in this type of stellarator. This pape...

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Published in:Nuclear fusion 2023-02, Vol.63 (2), p.26018
Main Authors: Liu, Haifeng, Zhang, Jian, Xu, Yuhong, Shimizu, Akihiro, Cooper, Wilfred Anthony, Okamura, Shoichi, Isobe, Mitsutaka, Wang, Xianqu, Huang, Jie, Cheng, Jun, Liu, Hai, Zhang, Xin, Tang, Changjian
Format: Article
Language:English
Subjects:
bootstrap current
MHD stabilities
micro-instability
neoclassical transport
quasi-axisymmetric stellarator
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Summary:Neoclassical properties in quasi-axisymmetric (QA) stellarators are analogous to these in tokamaks. Consequently, a substantial bootstrap current could significantly modify the MHD equilibrium properties of a QA stellarator, which is an important characteristic in this type of stellarator. This paper is dedicated to systemically investigate the effects of bootstrap current on the magnetic configuration in Chinese first quasi-axisymmetric stellarator (CFQS). For the first time, self-consistent bootstrap currents in free-boundary equilibria are calculated with an accurate Fokker–Planck neoclassical numerical mode in CFQS. Several important results are achieved: (a) as the bootstrap current grows with increasing volume-averaged normalized pressure β , magnetic shear develops in the bulk plasma and meanwhile, a deep magnetic well is robustly sustained, which leads to improved stabilization of interchange modes up to β ∼ 2.0 % . (b) In the analysis of global ideal MHD instability, as the bootstrap current rises to 39 kA ( β ∼ 1.3 % ), external kink modes become destabilized and the unstable mode with m / n = 2/1 is dominant. (c) From β = 0 to 1.5%, the bootstrap current hardly changes the QA property and a low neoclassical transport is maintained. However, as β is enhanced beyond 2.0%, the substantial bootstrap current gives rise to an increase of non-QA magnetic field components, which weakens the neoclassical transport properties. (d) An increase of the negative magnetic shear at the core region by the bootstrap currents has a favorable effect on the properties of J (second adiabatic invariant). The maximum- J region can be extended by raising bootstrap currents.
ISSN:0029-5515
1741-4326
DOI:10.1088/1741-4326/acadef