Electron Beam Emission and Interaction in 0.3-THz Gyrotron for Second Harmonic, CW Operation

Author

Singh, Upendra ; Kumar, Narendra ; Kumar, Ajit ; Yadav, Vandana ; Purohit, L.P. ; Sinha, Arun Kumar

Author_Institution

Central Electron. Eng. Res. Inst., Pilani, India

Volume

41

Issue

4

fYear

2013

fDate

Apr-13

Firstpage

929

Lastpage

934

Abstract

This paper describes the design of a 0.3-THz gyrotron at second harmonic operation. The interaction cavity design and the beam-wave interaction computation are carried out for TE_0,6 mode by using the particle-in-cell electromagnetic simulation approach. The simulation results confirm > 6-kW output power with efficiency ~ 17% by using an electron beam with accelerating voltage 20 kV and current 2.0 A. To achieve the required electron beam parameters, a triode magnetron injection gun is designed. The transverse-to-axial velocity ratio (α), 1.27 and the transverse velocity spread <; 4% are realized. Considering the fabrication and operation of the device, the parametric analysis is also performed.

Keywords

gyrotrons; triodes; beam-wave interaction computation; current 2.0 A; efficiency 17 percent; electron beam emission; electron beam parameters; frequency 0.3 THz; gyrotron; interaction cavity design; particle-in-cell electromagnetic simulation approach; second harmonic operation; transverse velocity spread; transverse-to-axial velocity ratio; triode magnetron injection gun; voltage 20 kV; Cathodes; Cavity resonators; Electron beams; Gyrotrons; Harmonic analysis; Plasmas; Power generation; Gyrotron; magnetron injection gun (MIG); second harmonic; terahertz device;

fLanguage

English

Journal_Title

Plasma Science, IEEE Transactions on

Publisher

ieee

ISSN

0093-3813

Type

jour

DOI

10.1109/TPS.2013.2248758

Filename

6488867