Development of 170 GHz/1 MW Russian gyrotron for ITER

Development of 170 GHz/1 MW Russian gyrotron for ITER

The report presents the results of development of the 170 GHz/1 MW gyrotrons in Russia. The main problems of powerful gyrotrons at present (formation of a high quality helical electron beam, selection of a high efficiency cavity mode, decreasing of inner converter losses, reliable collector and outp...

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Veröffentlicht in:Fusion engineering and design 2001, Vol.53 (1), p.377-385
Hauptverfasser: Zapevalov, V.E, Denisov, G.G, Flyagin, V.A, Sh. Fix, A, Kuftin, A.N, Litvak, A.G, Agapova, M.V, Iljin, V.N, Khmara, V.A, Myasnikov, V.E, Nichiporenko, V.O, Popov, L.G, Usachev, S.V, Alikaev, V.V, Iljin, V.I
Format: Artikel
Sprache:eng
Schlagworte:
Electric current collection
Electric current control
Electron beams
Gyrotrons
Mathematical models
Plasma heating
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Zusammenfassung:The report presents the results of development of the 170 GHz/1 MW gyrotrons in Russia. The main problems of powerful gyrotrons at present (formation of a high quality helical electron beam, selection of a high efficiency cavity mode, decreasing of inner converter losses, reliable collector and output window) are discussed. The design versions of the main parts of gyrotrons including the short-pulse prototype, first and second versions of industrial models and test set-up are presented. Advanced 170 GHz ITER gyrotrons were also investigated including a single-stage depressed collector versions (CPD) as well as an improved window (CVD diamond window from FZK). The possibility to make high efficient 170 GHz/1 MW gyrotron for ITER is proved by calculations and experiments.
ISSN:0920-3796
1873-7196
DOI:10.1016/S0920-3796(00)00513-5