Modeling and simulation of magnetically confined low-pressure plasmas in two dimensions

Abstract

A hybrid electron fluid-particle ion model of a cylindrical axisymmetric discharge with conducting walls and a uniform axial magnetic field has been developed. The chamber is 30 cm in length and 15 cm in diameter. Power is deposited into electrons with a uniform axial profile and two model radial profiles: uniform power per electron (flat), and power per electron varying as the square of a J/sub 0/ Bessel function (peaked). The major results of the study are that it is possible to treat two-dimensional systems with very small Debye-length-to-system-chamber-length scale ratios, and that the radial power deposition profile appears to have a marked effect on the nature of the plasma profiles, including the ion flux profiles.