DocumentCode :
1710191
Title :
Multimegawatt gyrotrons for plasma heating
Author :
Advani, R. ; Denison, D. ; Kreischer, Kenneth E. ; Shapiro, Michael A. ; Temkin, Richard J.
Author_Institution :
Plasma Sci. & Fusion Center, MIT, Cambridge, MA, USA
fYear :
1999
Firstpage :
162
Abstract :
Summary form only given, as follows. The gyrotron is under development as a high power source for plasma heating at electron cyclotron resonance. For heating large scale plasmas, such as the DIII-D machine at General Atomics, it is advantageous to have high unit power heating sources to reduce the cost and complexity of the system. We will present preliminary designs of 1.5 and 2 MW gyrotrons at a frequency of 110 GHz. The gyrotron designs are based on previous successful results at the 1 MW level at frequencies from 110 to 170 GHz. The baseline design is for a TE/sub 28,8/ mode cavity with an electron beam of 80 to 110 kV and a current of up to 80 A. The expected efficiency exceeds 30% but it should increase to over 50% with a depressed collector. The output beam will be a Gaussian TEM/sub 00/ mode in free space. The gyrotron will be investigated experimentally in short pulse operation (/spl sim/3 microseconds) at MIT and, if successful, will be developed in a 10 s pulsed or CW version by industry. There are two competing approaches for the design of multimegawatt gyrotrons: conventional, cylindrical cavity gyrotrons and coaxial cavity gyrotrons. The conventional cavity approach is being considered as an extension of present day gyrotron research at 110 GHz. The coaxial cavity gyrotron is under investigation at MIT with the goal of output powers of 3 MW at 140 GHz. Recent experimental results from the coaxial cavity gyrotron at power levels in excess of 1 MW will be presented.
Keywords :
gyrotrons; plasma radiofrequency heating; 1.5 MW; 110 GHz; 2 MW; 80 A; 80 to 110 kV; DIII-D machine; Gaussian TEM/sub 00/ mode; General Atomics; TE/sub 28,8/ mode cavity; coaxial cavity gyrotrons; cylindrical cavity gyrotrons; efficiency; electron beam; electron cyclotron resonance; large scale plasmas; multimegawatt gyrotrons; plasma heating; short pulse operation; Coaxial components; Costs; Cyclotrons; Electrons; Frequency; Gyrotrons; Heating; Large-scale systems; Plasma sources; Resonance;
fLanguage :
English
Publisher :
ieee
Conference_Titel :
Plasma Science, 1999. ICOPS '99. IEEE Conference Record - Abstracts. 1999 IEEE International Conference on
Conference_Location :
Monterey, CA, USA
ISSN :
0730-9244
Print_ISBN :
0-7803-5224-6
Type :
conf
DOI :
10.1109/PLASMA.1999.829415
Filename :
829415
Link To Document :
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