English

Two-parameter Radial Equilibrium Models for Field-Reversed Configurations

Plasma Physics 2021-03-02 v1

Abstract

A new equilibrium pressure profile extending the Rigid-Rotor (RR) model with a simple unified expression P=P(ψ;βs,α,σ)P=P(\psi;\beta_{s},\alpha, \sigma) for both inside and outside the separatrix is proposed, in which the radial normalized field-reversed configuration (FRC) equilibrium profiles for pressure, magnetic field, and current can be determined by only two dimensionless parameters βsPs/2μ0Be2\beta_s\equiv P_s/2\mu_0B_e^2 and δsLps/Rs\delta_s\equiv L_{ps}/R_s, where PsP_s is the thermal pressure at the separatrix, BeB_e is the external magnetic field strength, LpsL_{ps} is the pressure profile scale length at the separatrix, and RsR_s is the separatrix radius. This modified rigid rotor (MRR) model has sufficient flexibility to accommodate the narrow scrape of layer (SOL) width and hollow current density profiles, and can be used to fit experimental measurements satisfactorily. Detailed one-dimensional (1D) characteristics of the new MRR model are investigated analytically and numerically, and the results are also confirmed in two-dimensional (2D) numerical equilibrium solutions.

Keywords

Cite

@article{arxiv.2010.05493,
  title  = {Two-parameter Radial Equilibrium Models for Field-Reversed Configurations},
  author = {Haojie Ma and Huasheng Xie and Yukun Bai and Shikui Cheng and Bihe Deng and Michel Tuszewski and Yang Li and Hanyue Zhao and Bin Chen and Jinyuan Liu},
  journal= {arXiv preprint arXiv:2010.05493},
  year   = {2021}
}

Comments

10 pages, 9 figures, submitted to Nucl. Fusion

R2 v1 2026-06-23T19:16:00.766Z