Title :
Computation of Start Oscillation Current in a gyrotron
Author :
Khatun, H. ; Rao, RR ; Sinha, AK ; Joshi, SN
Author_Institution :
Gyrotron Lab., Central Electron. Eng. Res. Inst., Pilani
Abstract :
Gyrotron is a high power microwave device intensively developed for heating of plasma in thermonuclear fusion research. The relativistic gyrating electron beam interacts with transverse electric (TE) wave near cutoff in a uniform section of tapered cavity resonator at a DC magnetic field helps to excite several modes simultaneously. The efficient operation of the gyrotron requires excitation of desired mode while suppressing competitive modes. Thus, to design gyrotron, analysis of Start Oscillation Current (SOC) is extremely important. SOC plays a critical role in selection of dominating modes and operation of the device at the dominant mode. This paper discusses estimation of start oscillation current (SOC) for 42 GHz, 200 kW gyrotron operating at TE03. A numerical code GCAVSOC to compute the SOC has been developed using MATLAB. Further, the results of SOC also validated with IT-BHU, which shows good agreement.
Keywords :
cavity resonators; gyrotrons; millimetre wave tubes; plasma radiofrequency heating; relativistic electron beam tubes; DC magnetic field; GCAVSOC; IT-BHU; MATLAB; electron beam interaction; frequency 42 GHz; gyrotron; high power microwave device; plasma heating; power 200 kW; relativistic gyrating electron beam; start oscillation current; tapered cavity resonator; thermonuclear fusion research; transverse electric wave; Cavity resonators; Electromagnetic heating; Electron beams; Fusion reactors; Gyrotrons; Magnetic fields; Microwave devices; Plasma devices; Plasma waves; Tellurium;
Conference_Titel :
Recent Advances in Microwave Theory and Applications, 2008. MICROWAVE 2008. International Conference on
Conference_Location :
Jaipur
Print_ISBN :
978-1-4244-2690-4
Electronic_ISBN :
978-1-4244-2691-1
DOI :
10.1109/AMTA.2008.4763191
