Title :
Development of high power gyrotrons at 110 GHz and 140 GHz
Author :
Chu, R.S. ; Blank, M. ; Borchard, P. ; Cahalan, P. ; Cauffman, S. ; Felch, K. ; Jory, H.
Author_Institution :
CPI, Palo Alto, CA, USA
Abstract :
High-power, long-pulse or CW millimeter-wave sources are required in electron cyclotron heating or current drive for fusion experiments. Gyrotron oscillators have served as effective sources in this area for many years. To reduce system cost, megawatt gyrotrons are required. At CPI, various programs are underway to deliver long pulse or CW megawatt gyrotrons. In particular, we are building a 110 GHz, 10 sec, 1.5 MW gyrotron. This gyrotron will be completed in early 2004. In addition, we have fabricated and are currently testing a 1 MW CW gyrotron at 140 GHz. Key features of these two gyrotrons include quasi-optical internal converters, diode-type electron guns, CVD (chemical vapor deposition) diamond output windows, and single-stage depressed collectors. In this paper, we will summarize the basic design of the 110 GHz and 140 GHz gyrotrons and report on the experimental results obtained on the megawatt, CW, 140 GHz gyrotron.
Keywords :
electron guns; gyrotrons; millimetre wave oscillators; millimetre wave tubes; 1.5 MW; 10 sec; 110 GHz; 140 GHz; CVD diamond output windows; CW millimeter-wave sources; chemical vapor deposition; current drive; diode-type electron guns; electron cyclotron heating; fusion experiments; gyrotron oscillators; high power gyrotrons; long pulse millimeter-wave sources; megawatt gyrotrons; quasioptical internal converters; Collaboration; Costs; Cyclotrons; Diodes; Electrons; Gyrotrons; Heating; Mirrors; Testing; US Department of Energy;
Conference_Titel :
Vacuum Electronics, 2003 4th IEEE International Conference on
Print_ISBN :
0-7803-7699-4
DOI :
10.1109/IVEC.2003.1286021
