Development of a High Power Gyrotron Operating at 28 and 35 GHz

An experimental and design study has been commenced for a dual-frequency gyrotron (28 and 35 GHz). The target output power at 28 GHz is 2 MW. For a modified 28 GHz 1 MW gyrotron, an output power of 1.25 MW and operation of 0.6 MW for 2 s have been achieved at 28 GHz. For the 35.45 GHz oscillation te...

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Veröffentlicht in:	Plasma and Fusion Research 2013/08/15, Vol.8, pp.1205107-1205107
Hauptverfasser:	KARIYA, Tsuyoshi, MINAMI, Ryutaro, IMAI, Tsuyoshi, EGUCHI, Taku, SAKAMOTO, Keishi, MITSUNAKA, Yoshika, NUMAKURA, Tomoharu, ENDO, Yoichi
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Sprache:	eng
Schlagworte:	dual-frequency (28GHz and 35GHz) gyrotron electron cyclotron heating mode converter oscillation test radiation angle
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creator	KARIYA, Tsuyoshi MINAMI, Ryutaro IMAI, Tsuyoshi EGUCHI, Taku SAKAMOTO, Keishi MITSUNAKA, Yoshika NUMAKURA, Tomoharu ENDO, Yoichi
description	An experimental and design study has been commenced for a dual-frequency gyrotron (28 and 35 GHz). The target output power at 28 GHz is 2 MW. For a modified 28 GHz 1 MW gyrotron, an output power of 1.25 MW and operation of 0.6 MW for 2 s have been achieved at 28 GHz. For the 35.45 GHz oscillation test, a cavity oscillation power of 1.2 MW and an efficiency of 33.9% have been confirmed by considering the calculated transmission efficiency of 72%. These results support the development of dual-frequency gyrotrons for lower frequency ranges.
doi_str_mv	10.1585/pfr.8.1205107
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The target output power at 28 GHz is 2 MW. For a modified 28 GHz 1 MW gyrotron, an output power of 1.25 MW and operation of 0.6 MW for 2 s have been achieved at 28 GHz. For the 35.45 GHz oscillation test, a cavity oscillation power of 1.2 MW and an efficiency of 33.9% have been confirmed by considering the calculated transmission efficiency of 72%. 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The target output power at 28 GHz is 2 MW. For a modified 28 GHz 1 MW gyrotron, an output power of 1.25 MW and operation of 0.6 MW for 2 s have been achieved at 28 GHz. For the 35.45 GHz oscillation test, a cavity oscillation power of 1.2 MW and an efficiency of 33.9% have been confirmed by considering the calculated transmission efficiency of 72%. 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The target output power at 28 GHz is 2 MW. For a modified 28 GHz 1 MW gyrotron, an output power of 1.25 MW and operation of 0.6 MW for 2 s have been achieved at 28 GHz. For the 35.45 GHz oscillation test, a cavity oscillation power of 1.2 MW and an efficiency of 33.9% have been confirmed by considering the calculated transmission efficiency of 72%. These results support the development of dual-frequency gyrotrons for lower frequency ranges.</abstract><pub>The Japan Society of Plasma Science and Nuclear Fusion Research</pub><doi>10.1585/pfr.8.1205107</doi><tpages>1</tpages><oa>free_for_read</oa></addata></record>
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title	Development of a High Power Gyrotron Operating at 28 and 35 GHz
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