Your search keyword '"stochastic magnetic field"' showing total 3 results

1. Theory of mean E × B shear in a stochastic magnetic field: ambipolarity breaking and radial current

Author

Guo, Weixin, Jiang, Min, Diamond, Patrick H, Chen, Chang-Chun, Cao, Mingyun, Li, Hanhui, and Long, Ting

Subjects

E x B shear, stochastic magnetic field, ambipolarity breaking, radial current, L-H transition, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Other Physical Sciences, Fluids & Plasmas

Abstract

Abstract The mean E × B shear in a stochastic magnetic field is calculated, using the radial force balance relation and transport equations. This analysis is relevant to the L → H transition with resonant magnetic perturbations, and special focus is placed upon the physics of non-ambipolar transport and radial current. The key physical process is the flow of fluctuating currents along wandering magnetic fields. The increments in poloidal and toroidal rotation, density and ion pressure are calculated. The radial envelope of the magnetic perturbations inside the plasma defines a new scale ℓ env , which is the characteristic scale of the magnetic fluctuation intensity profile. The net particle outflow due to stochastic magnetic fields is calculated and is determined by the net radial current through the separatrix. Implications for the L → H transition are discussed.

Published

2022

2. Theory of mean E × B shear in a stochastic magnetic field: ambipolarity breaking and radial current

Author

Weixin Guo, Min Jiang, Patrick H Diamond, Chang-Chun Chen, Mingyun Cao, Hanhui Li, and Ting Long

Subjects

radial current, Other Physical Sciences, Particle and Plasma Physics, ambipolarity breaking, Nuclear Energy and Engineering, Fluids & Plasmas, stochastic magnetic field, Molecular, Nuclear, E x B shear, Condensed Matter Physics, L-H transition, Atomic

Abstract

The mean E × B shear in a stochastic magnetic field is calculated, using the radial force balance relation and transport equations. This analysis is relevant to the L → H transition with resonant magnetic perturbations, and special focus is placed upon the physics of non-ambipolar transport and radial current. The key physical process is the flow of fluctuating currents along wandering magnetic fields. The increments in poloidal and toroidal rotation, density and ion pressure are calculated. The radial envelope of the magnetic perturbations inside the plasma defines a new scale ℓ env , which is the characteristic scale of the magnetic fluctuation intensity profile. The net particle outflow due to stochastic magnetic fields is calculated and is determined by the net radial current through the separatrix. Implications for the L → H transition are discussed.

Published

2022

3. An advection-diffusion model for cross-field runaway electron transport in perturbed magnetic fields

Subjects

ta114, advection, diffusion, stochastic magnetic field, radial transport, runaway electron

Published

2016