Reconnection rates of magnetic fields including the effects of viscosity
The Sweet--Parker and Petschek scalings of the magnetic reconnection rate are modified to include the effect of the viscosity. The modified scalings show that the viscous effect can be important in high-..beta.. plasmas. The theoretical reconnection scalings are compared with numerical simulation results in a tokamak geometry for three different cases: a forced reconnection driven by external coils, the nonlinear m = 1 resistive internal kink, and the nonlinear m = 2 tearing mode. In the first two cases, the numerical reconnection rate agrees well with the modified Sweet--Parker scaling when the viscosity is sufficiently large. When the viscosity is negligible, a steady state which was assumed in the derivation of the reconnection scalings is not reached and the current sheet in the reconnection layer either remains stable through sloshing motions of the plasma or breaks up to higher m modes. When the current sheet remains stable, a rough comparison with the Sweet--Parker scaling is obtained. In the nonlinear m = 2 tearing mode case where the instability is purely resistive, the reconnection occurs on the slower dissipation time scale (psi-dot/sub s/approx.eta). In addition, experimental data of the nonlinear m = 1 resistive internal kink in tokamak discharges are analyzed and are found to give reasonable agreement with the modified Sweet--Parker scaling.
- Research Organization:
- Plasma Physics Laboratory, Princeton University, Princeton, New Jersey 08544
- DOE Contract Number:
- AC02-76CH03073
- OSTI ID:
- 5508437
- Journal Information:
- Phys. Fluids; (United States), Vol. 27:1
- Country of Publication:
- United States
- Language:
- English
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HIGH-BETA PLASMA
MAGNETIC FIELD CONFIGURATIONS
VISCOSITY
TOKAMAK DEVICES
PLASMA CONFINEMENT
CORRELATIONS
MODIFICATIONS
NONLINEAR PROBLEMS
SCALING LAWS
CLOSED PLASMA DEVICES
CONFINEMENT
PLASMA
THERMONUCLEAR DEVICES
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