Theory of current drive in plasmas
- 1 January 1987
- journal article
- research article
- Published by American Physical Society (APS) in Reviews of Modern Physics
- Vol. 59 (1) , 175-234
- https://doi.org/10.1103/revmodphys.59.175
Abstract
The continuous operation of a tokamak fusion reactor requires, among other things, a means of providing continuously the toroidal current. Such operation is preferred to the conventional pulsed operation, where the plasma current is induced by a time-varying magnetic field. A variety of methods have been proposed to provide continuous current, including methods that utilize particle beams or radio-frequency waves in any of several frequency regimes. Currents as large as half a mega-amp have now been produced in the laboratory by such means, and experimentation in these techniques has now involved major tokamak facilities worldwide.Keywords
This publication has 212 references indexed in Scilit:
- Computing of RF heating and current drive in TokamaksComputer Physics Communications, 1986
- Numerical study of a lower hybrid current drive in the presence of a dc electric fieldComputer Physics Communications, 1986
- Fokker-Planck calculations of rf heating in tokamaksComputer Physics Communications, 1986
- A comparison of pulsed and steady-state tokamak reactor burn cycles. Part I: Thermal effects and lifetime limitationsNuclear Engineering and Design. Fusion, 1985
- Continuous tokamak operation with an internal transformerJournal of Fusion Energy, 1983
- Lower hybrid heating and current drive system for a tokamak reactorJournal of Fusion Energy, 1982
- STARFIRE, a commercial tokamak power plant designNuclear Engineering and Design, 1981
- Parametric instabilities due to lower-hybrid radio frequency heating of tokamak plasmasPhysics of Fluids, 1977
- Slow-wave launching at the lower hybrid frequency using a phased waveguide arrayNuclear Fusion, 1976
- Plasma Transport in Toroidal Confinement SystemsPhysics of Fluids, 1972