Dynamic processes in field-reversed-configuration compact toroids
Abstract
The dynamic processes involved in field-reversed configuration (FRC) formation, translation, and compression are reviewed. Though the FRC is related to the field-reversed mirror concept, the formation method used in most experiments is a variant of the field-reversed THETA-pinch. Formation of the FRC eqilibrium occurs rapidly, usually in less than 20 microsec. The formation sequence consists of several coupled processes: preionization; radial implosion and compression; magnetic field line closure; axial contraction; equilibrium formation. Recent experiments and theory have led to a significantly improved understanding of these processes; however, the experimental method still relies on a somewhat empirical approach which involves the optimization of initial preionization plasma parameters and symmetry. New improvements in FRC formation methods include the use of lower voltages which extrapolate better to larger devices. The axial translation of compact toroid plasmas offers an attractive engineering convenience in a fusion reactor. FRC translation has been demonstrated in experiments worldwide, and these plasmas are found to be robust, moving at speeds up to the Alfven velocity over distances of up to 16 m, with no degradation in the confinement. Compact toroids are ideal for magnetic compression. Translated FRCs have been compressed and heated by imploding liners. Upcoming experiments will rely on external flux compression to heat a translater FRC at 1-GW power levels.
- Publication:
-
Presented at the Course and Workshop on Physics of Mirrors
- Pub Date:
- 1987
- Bibcode:
- 1987pmrf.work.....R
- Keywords:
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- Dynamic Characteristics;
- Fusion Reactors;
- Reverse Field Pinch;
- Toroidal Plasmas;
- Implosions;
- Ionization;
- Magnetic Fields;
- Magnetic Mirrors;
- Plasma Compression;
- Radial Flow;
- Time Dependence;
- Plasma Physics