Title :
Design of a Triode Magnetron Injection Gun for a 1-MW 170-GHz Gyrotron
Author :
Kumar, Anil ; Singh, Udaybir ; Kumar, Nitin ; Kumar, Narendra ; Vyas, V. ; Sinha, A.K.
Author_Institution :
Central Electron. Eng. Res. Inst., Council of Sci. & Ind. Res., Pilani, India
Abstract :
A triode magnetron injection gun (MIG) is designed for a 1-MW 170-GHz gyrotron, which will be used in an electron cyclotron resonance heating system for the International Thermonuclear Experimental Reactor. The initial design of MIG is performed by using the in-house code MIGSYN. For the electron-beam emission and propagation, the 2-D code EGUN is implemented. The transverse-to-axial velocity ratio α is 1.37, and the transverse velocity spread less than 4% is realized. The results are also validated against two other 2-D and 3-D codes, i.e., TRAK and CST-Particle Studio, respectively, which are in close agreement. From the fabrication and operation point of view, the parametric analysis and misalignment study of electron beam are also performed.
Keywords :
electron emission; gyrotrons; magnetrons; plasma devices; plasma radiofrequency heating; triodes; 2D code; 2D code EGUN; 3D code; CST-Particle Studio; International Thermonuclear Experimental Reactor; TRAK-Particle Studio; electron beam emission; electron beam propagation; electron cyclotron resonance heating system; frequency 170 GHz; gyrotron; in-house code MIGSYN; power 1 MW; triode magnetron injection gun; Cathodes; Cavity resonators; Electron beams; Gyrotrons; Numerical simulation; Power generation; Radio frequency; Electron gun; gyrotron; magnetron injection gun (MIG); microwave device;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2012.2205710
