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Runaway electron studies in the ATF torsatron.

Authors :
England, A. C.
Bell, G. L.
Fowler, R. H.
Glowienka, J. C.
Harris, J. H.
Lee, D. K.
Murakami, M.
Neilson, G. H.
Rasmussen, D. A.
Rome, J. A.
Saltmarsh, M. J.
Wilgen, J. B.
Source :
Physics of Fluids B: Plasma Physics; Jul91, Vol. 3 Issue 7, p1671, 16p
Publication Year :
1991

Abstract

Runaway electron formation and confinement occur readily in pulsed torsatrons and heliotrons because of the high loop voltages during initiation and termination of the helical and vertical fields (‘‘field ramping’’) and the inherently good containment of the electrons on the flux surfaces in the vacuum fields. This has been confirmed for the Advanced Toroidal Facility (AFT) [Fusion Technol. 10, 179 (1986)] and other stellarators by orbit calculations. Since runaway electrons can cause an unacceptable level of hard x rays near the machine, a runaway electron suppression system was incorporated in ATF. The main component of the system is a movable paddle, which is normally left in the center of the plasma chamber during the field ramps. This device, in conjunction with programmed vertical field ramping, which reduces the volume of good flux surfaces, has proved to be very effective in reducing the runaway electron population. Measurements of hard x rays from ATF have shown that the runaway electrons are produced primarily during the field ramping but that there is usually also a small steady-state runaway electron component during the‘‘flat-top’’ portion of the fields. The paddle is the main source of the hard x radiation (thick-target bremsstrahlung). There is evidence that some of the runaway electrons may be confined to islands. The maximum x-ray energy found by pulse height analysis is ∼12–15 MeV. The mean energy appears to be a few million electron volts. There is a noticeable forward peaking of the bremsstrahlung from the paddle. The limiters do not appear to be major sources of x rays. [ABSTRACT FROM AUTHOR]

Subjects

Subjects :
ELECTRONS
STELLARATORS

Details

Language :
English
ISSN :
08998221
Volume :
3
Issue :
7
Database :
Complementary Index
Journal :
Physics of Fluids B: Plasma Physics
Publication Type :
Academic Journal
Accession number :
9831846
Full Text :
https://doi.org/10.1063/1.859687