Tandem mirror reactor with thermal barriers

A new invention — the thermal barrier — promises to improve the tandem mirror fusion reactor. The thermal barrier consists of a region of reduced magnetic field strength, plasma density, and plasma potential between each end plug and the central cell of a tandem mirror. The depressed plasma potentia...

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Bibliographic Details
Published in:Nuclear engineering and design 1981-01, Vol.63 (2), p.233-250
Main Authors: Carlson, G.A., Arfin, B., Barr, W.L., Boghosian, B.M., Erickson, J.L., Fink, J.H., Hamilton, G.W., Logan, B.G., Myall, J.O., Neef, W.S., Emmert, G.A., Kesner, J., Kulcinski, G.L., Larbalestier, D.C., Larsen, E.M., Maurer, W., Maynard, C.W., Santarius, J.F., Scharer, J.E., Sviatoslavsky, I.N., Sze, D.K., Vogelsang, W.F., Wilkes, P.
Format: Article
Language:English
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Summary:A new invention — the thermal barrier — promises to improve the tandem mirror fusion reactor. The thermal barrier consists of a region of reduced magnetic field strength, plasma density, and plasma potential between each end plug and the central cell of a tandem mirror. The depressed plasma potential serves to thermally insulate the plug electrons from the central cell electrons. With barriers and auxiliary electron heating in the plugs, the central cell confining potential can be generated with a lower plug plasma density, magnetic field strength, and beam injection energy than for the case without barriers. This paper summarizes the status of the rapidly evolving physics knowledge concerning tandem mirrors with thermal barriers, describes end plug components typical for tandem mirror reactors — yin-yang magnets, neutral beams, and ECRH heating systems, and discusses central cell design.
ISSN:0029-5493
1872-759X
DOI:10.1016/0029-5493(81)90045-5