Analytical solutions and particle simulations of cross-field plasma sheaths
- Massachusetts Inst. of Tech., Cambridge, MA (USA). Plasma Fusion Center
- California Univ., Berkeley, CA (USA). Electronics Research Lab.
Particles simulations have been made of an infinite plasma slab, bounded by absorbing conducting walls, with a magnetic field parallel to the walls. The simulations have been either 1-D, or 2-D, with the magnetic field normal to the simulation plane. Initially, the plasma has a uniform density between the walls, and there is a uniform source of ions and electrons to replace particles lost to the walls. In the 1-D case, there is no diffusion of the particle guiding centers, and the plasma remains uniform in density and potential over most of the slab, with sheaths about a Debye length wide where the potential rises to the wall potential. In the 2-D case, the density profile becomes parabolic, going almost to zero at the walls, and there is a quasineutral presheath in the bulk of the plasma, in addition to sheaths near the walls. Analytic expressions are found for the density and potential profiles in both cases, including, in the 2-D case, the magnetic presheath due to finite ion Larmor radius, and the effects of the guiding center diffusion rate being either much less than or much grater than the energy diffusion rate. These analytic expressions are shown to agree with the simulations. A 1-D simulation with Monte Carlo guiding center diffusion included gives results that are good agreement with the much more expensive 2-D simulation. 17 refs., 10 figs.
- Research Organization:
- California Univ., Berkeley, CA (USA). Electronics Research Lab.
- Sponsoring Organization:
- DOE/ER
- DOE Contract Number:
- FG03-86ER53220; AC02-78ET51013
- OSTI ID:
- 6275936
- Report Number(s):
- UCB/ERL-M-89/114; ON: DE91007306; TRN: 91-004492
- Country of Publication:
- United States
- Language:
- English
Similar Records
A unified analysis of plasma-sheath transition in the Tonks–Langmuir model with warm ion source
Magnetic mirror effects on a collisionless plasma in a convergent geometry