论文信息 - Effects of Finite Plasma Beta on the Lower-Hybrid-Drift Instability,

Effects of Finite Plasma Beta on the Lower-Hybrid-Drift Instability,

The local dispersion relation for the lower‐hybrid‐drift isntability is derived in a fully self‐consistent manner including the finite‐beta effects associated with (a) transverse electromagnetic perturbations (δB≠0), and (b) resonant and nonresonant h/B0 electron orbit modifications. Moreover, the analysis is carried out for arbitrary values of local β=8πn (Te+Ti)/B02, Te/Ti, ω2pe/ω2ce, and VE/vi. (Here, VE is the cross‐field E×B velocity, and vi is the ion thermal speed.) For all parameter regimes studied, the net effect of finite plasma beta is to reduce the maximum growth rate γm of the lower‐hybrid‐drift instability. The details, however, vary, depending on plasma parameters. For example, if Te≪Ti and VE<vi, then the maximum growth rate is reduced by a factor (1+βi/2)−1/2, relative to the value obtained when βi=8πnTi/B20→0. On the other hand, for Te≈Ti, there exists a critical value of plasma beta (βcr) such that the lower‐hybrid‐drift instability is completely stabilized (γ<0) for β≳βcr.

[1] D. Batchelor,et al. Nonlocal analysis of the lower‐hybrid‐drift instability in theta‐pinch plasmas , 1976 .

[2] J. Huba,et al. Effects of a magnetic field gradient on the lower hydrid drift instability , 1976 .

[3] N. T. Gladd,et al. Anomalous transport properties associated with the lower‐hybrid‐drift instability , 1975 .

[4] D. Biskamp. Collisionless shock waves in plasmas , 1973 .

[5] N. A. Krall,et al. Low-Frequency Instabilities in Magnetic Pulses , 1971 .

[6] R. Commisso,et al. Observation of Collisionless Heating and Thermalization of Ions in a Theta Pinch , 1976 .

[7] Allen H. Boozer,et al. Particle trapping in magnetic line cusps , 1973 .

[8] A. Sen,et al. Electromagnetic and ∇B-effects on the modified two-stream instability , 1973 .

[9] V. Vasyliūnas. Theoretical models of magnetic field line merging , 1975 .

[10] N. A. Krall,et al. Self‐consistent approach to anomalous resistivity applied to theta pinch experiments , 1973 .

[11] R. Kristal,et al. Measurements of plasma density distribution and current-sheath structure in the implosion phase of a theta-pinch discharge , 1974 .

[12] N. A. Krall. Shear stabilization of lower hybrid drift instabilities , 1977 .

[13] N. T. Gladd. The lower hybrid drift instability and the modified two stream instability in high density theta pinch environments , 1976 .