DocumentCode
3602182
Title
Oscillation-Starting Conditions for Oversized 
-Band (140–220 GHz) Backward Wave Oscillator Driven by Weakly Relativistic Electron Beam
Author
Shaoyan Gong ; Ogura, Kazuo ; Nomizu, Shintaro ; Shirai, Akihiro ; Yamazaki, Kosuke ; Yambe, Kiyoyuki Yambe ; Kubo, Shin ; Shimozuma, Takashi ; Kobayashi, Sakuji ; Okada, Kohji
Author_Institution
Grad. Sch. of Sci. & Technol., Niigata Univ., Niigata, Japan
Volume
43
Issue
10
fYear
2015
Firstpage
3530
Lastpage
3536
Abstract
An oversized G-band backward wave oscillator (BWO) driven by a weakly relativistic electron beam less than 100 kV is studied. Rectangular corrugations are used as the slow-wave structure (SWS), which have surface waves with upper cutoff frequencies of above 150 GHz [G-band (140-220 GHz)]. In this paper, we examine the starting conditions for intense G-band BWO operation by varying the beam parameters and SWS lengths. It is shown that a starting energy exists for the G-band BWO and that the starting energy is more critical than the starting current in the oversized BWO. Above the starting energy, very intense output powers on the order of 10 kW are obtained. The oscillation-starting condition for such intense operation may play an important role in high-intensity terahertz wave sources.
Keywords
backward wave oscillators; relativistic electron beam tubes; slow wave structures; terahertz wave generation; beam parameters; frequency 140 GHz to 220 GHz; high intensity terahertz wave source; oscillation starting conditions; oversized G-band backward wave oscillator; power 10 kW; rectangular corrugations; slow wave structure; weakly relativistic electron beam; Cathodes; Cutoff frequency; Dispersion; Electron beams; Microwave antennas; Microwave oscillators; Oversized backward wave oscillator (BWO); rectangular corrugation; slow-wave structure (SWS); starting energy; weakly relativistic electron beam; weakly relativistic electron beam.;
fLanguage
English
Journal_Title
Plasma Science, IEEE Transactions on
Publisher
ieee
ISSN
0093-3813
Type
jour
DOI
10.1109/TPS.2015.2424993
Filename
7103352
Link To Document