W-band dual-sheet beam traveling-wave tube with a novel planar slow-wave structure

doi:10.11972/j.issn.1001-9014.2022.01.026

Home > Archive>Volume 41, Issue 1, 2022 >305-310. DOI:10.11972/j.issn.1001-9014.2022.01.026

W-band dual-sheet beam traveling-wave tube with a novel planar slow-wave structure
DOI:
                        10.11972/j.issn.1001-9014.2022.01.026
                    
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                        DONG YangDONG Yang
National Key Laboratory on Vacuum Electronics， School of Electronic Science and Engineering， University of Electronic Science and Technology of China， Chengdu 610054
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GUO Jing-YuGUO Jing-Yu
National Key Laboratory on Vacuum Electronics， School of Electronic Science and Engineering， University of Electronic Science and Technology of China， Chengdu 610054
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WANG He-XinWANG He-Xin
National Key Laboratory on Vacuum Electronics， School of Electronic Science and Engineering， University of Electronic Science and Technology of China， Chengdu 610054
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WANG Zhan-LiangWANG Zhan-Liang
National Key Laboratory on Vacuum Electronics， School of Electronic Science and Engineering， University of Electronic Science and Technology of China， Chengdu 610054
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LU Zhi-GangLU Zhi-Gang
National Key Laboratory on Vacuum Electronics， School of Electronic Science and Engineering， University of Electronic Science and Technology of China， Chengdu 610054
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GONG Hua-RongGONG Hua-Rong
National Key Laboratory on Vacuum Electronics， School of Electronic Science and Engineering， University of Electronic Science and Technology of China， Chengdu 610054
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DUAN Zhao-YunDUAN Zhao-Yun
National Key Laboratory on Vacuum Electronics， School of Electronic Science and Engineering， University of Electronic Science and Technology of China， Chengdu 610054
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GONG Yu-BinGONG Yu-Bin
National Key Laboratory on Vacuum Electronics， School of Electronic Science and Engineering， University of Electronic Science and Technology of China， Chengdu 610054
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WANG Shao-MengWANG Shao-Meng
National Key Laboratory on Vacuum Electronics， School of Electronic Science and Engineering， University of Electronic Science and Technology of China， Chengdu 610054
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Affiliation:National Key Laboratory on Vacuum Electronics， School of Electronic Science and Engineering， University of Electronic Science and Technology of China， Chengdu 610054
Clc Number:TN124
Fund Project:Supported by National Natural Science Foundation of China （61921002， 61988102 and 62071087）.

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Abstract:

A dual-beam rectangular ring-bar （DBRRB） slow wave structure （SWS）， which is with a planar structure and is suitable for micro fabrication， is proposed for W-band traveling-wave tubes （TWT）. Supported by a pair of T-shaped dielectric rods， the RRB SWS is fit for dual-sheet beam operation. The high frequency characteristics are analyzed by using computer simulations. Wide bandwidth input-output structures adopting tapered structure and step waveguide are designed. Hot-test performance of the RRB SWS is investigated by means of Particle-in-cell （PIC） simulations. A solenoid magnetic field of 0.6 T is adopted to focus the sheet beams with voltage and current of 11.2 kV and 0.12 A. The saturated output power of 56.7 W at 94 GHz is obtained at the output port， corresponding a gain of 27.4 dB. In addition， an attenuator is added to suppress oscillations and achieve stable operation.

Key words:traveling wave tube;dual-sheet beam;step waveguide;attenuator

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DONG Yang, GUO Jing-Yu, WANG He-Xin, WANG Zhan-Liang, LU Zhi-Gang, GONG Hua-Rong, DUAN Zhao-Yun, GONG Yu-Bin, WANG Shao-Meng. W-band dual-sheet beam traveling-wave tube with a novel planar slow-wave structure[J]. Journal of Infrared and Millimeter Waves,2022,41(1):305~310

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Received:April 01,2021
Revised:January 17,2022
Adopted:June 01,2021
Online: January 06,2022
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