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Design and simulation of W-band BWO based on slotted single-grating and cylindrical beam

Xie Wen-Qiu Wang Zi-Cheng Luo Ji-Run Liu Qing-Lun Dong Fang

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Design and simulation of W-band BWO based on slotted single-grating and cylindrical beam

Xie Wen-Qiu, Wang Zi-Cheng, Luo Ji-Run, Liu Qing-Lun, Dong Fang
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  • A slotted rectangular single-grating with a cylindrical electron beam was proposed as the beam-wave interaction circuit of a W-band backward wave oscillator (BWO). Analysis on the slow-wave characteristics of the structure was done utilizing three-dimensional electromagnetic field simulation software CST-MWS. Results are as follows: The new structure can have a much larger coupling impedance than traditional one; the bandwidth of the fundamental mode can be broadened and the fundamental mode is unlikely to compete with the high-order mode. The loss caused by the skin effect is reduced. The structure was applied to design a W-band backward wave oscillator whose band center is 94 GHz. A simple slow-wave transition part, and the output coupler and terminal matching attenuator were designed, the parameters of which were optimized to obtain good signal transmission. Using CST-PS’s PIC solver, a three-dimensional large-signal particle simulation was done. After setting a suitable electron current and other parameters, watts scale peak output power was obtained within a wide frequency band by adjusting the working voltage, and the electronic efficiency in the band was greater than 1%.
    • Funds: Project supported by the National Natural Science Foundation of China (Grant No. 61172016), and the Natural Science Foundation of Beijing, China (Grant No. 4122030).
    [1]

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    [2]

    Dobroiu A, Yamashita M, Ohshima Y N, Morita Y, OtaniC, Kawase K 2004 Appl. Opt. 43 5637

    [3]

    Gorshunov B, Volkov A, Spektor I, Prokhorov A, Mukhin A, Dressel M, UchidaS, Loidl A 2005 Int. J. Infrared Millimeter Waves 26 1217

    [4]

    Pronin A V, Goncharov Y G, Fischer T, Wosnitza J 2009 Rev. Sci. Instrum. 80 1

    [5]

    Ives L, Kory C, Read M, Neilson J, Caplan M, Chubun N, Wilcox R, Robinson T 2004 Monterey IEEE International Vacuum Electronics Conference April 27-29 2004 p67

    [6]

    Feng J J, Ren D P, Li H Y, Tang Y, Xing J Y 2011 Terahertz Science and Technology 4 164

    [7]

    Dayton J A, Kory C L, Mearini G T, Malta D, Lueck M, Vancil B 2012 Monterey IEEE International Vacuum Electronics Conference April 24-26 2012 p399

    [8]

    Dayton J A, Kory C L, Mearini G T, 2006 Monterey IEEE International Vacuum Electronics Conference April 25-27 2006 p423

    [9]

    Xu X, Wei Y, Shen F, Huang M Z, Tang T, Duan Z Y, Gong Y B 2012 Chin. Phys. B 21 068402

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    Mineo M, Paoloni C 2010 IEEE Trans. Electron Devices 57 3169

    [11]

    Shin Y M, Barnett L R, Luhmann N C 2009 IEEE Trans. Electron Devices 56 706

    [12]

    He J, Wei Y Y, Gong Y B, Duan Z Y, Wang W X 2010 Acta Phys. Sin. 59 2843 (in Chinese) [何俊, 魏彦玉, 宫玉彬, 段兆云, 王文祥 2010 物理学报 59 2843]

    [13]

    Mineo M, Paoloni C 2010 IEEE Trans. Electron Devices 57 1481

    [14]

    Collin R E 1966 Foundaations for microwave engineering (New York: McGraw-Hill) p383

    [15]

    McVey B D, Basten M A, Booske J H, Joe J, Scharer J E 1994 IEEE Transactions on Microwave Theory and Techniques 42 995

    [16]

    Zaginaylov G I, Hirata A, Ueda T, Shiozawa T 2000 IEEE Trans. Plasma Science 28 614

    [17]

    Gong Y B, Lu Z G, Wang G J, Wei Y Y, Huang M Z, Wang W X 2006 J. InfraredMillim. Waves 25 0173 (in Chinese) [宫玉彬, 路志刚, 王冠军, 魏彦玉, 黄民智, 王文祥 2006 红外与毫米波学报 25 173]

    [18]

    Lu Z G, Wei Y Y, Gong Y B, Wu Z M, Wang W X 2007 Acta Phys. Sin. 56 3318 (in Chinese) [路志刚, 魏彦玉, 宫玉彬, 吴周淼, 王文祥 2007 物理学报 56 3318]

    [19]

    Lu Z G, Wei Y Y, Gong Y B, Wang W X 2006 J. InfraredMillim. Waves 25 349 (in Chinese) [路志刚, 魏彦玉, 宫玉彬, 王文祥 2006 红外与毫米波学报 25 349]

    [20]

    Pierce J R 1956 IRE Trans. Electron Devices 3183

    [21]

    Booske J H, McVey B D, Antonsen T M 1993 J. Appl. Phys. 73 4140

    [22]

    Nguyen K T, Pasour J A, Antonsen T M, Larsen P B, Petillo J J, Levush B 2009 IEEE Trans. Electron Devices 55 744

    [23]

    Liu Q L, Wang Z C, Liu P K 2012 Acta Phys. Sin. 61 124101 (in Chinese) [刘青伦, 王自成, 刘濮鲲 2012 物理学报 61 124101]

    [24]

    Kory C L, Read M E, Ives R L, Booske J H, Borchard P 2009 IEEE Trans. Electron Devices 56 7

    [25]

    Calame J P, Garven M, Lobas D, Myers R E, Wood F, Abe D K 2006 Monterey IEEE International Vacuum Electronics Conference April 25-27 2006 p37

  • [1]

    Booske J H, Dobbs R J, Joye C D, Kory C L, Neil G R, Park G S, Park J, Temkin R J 2011 IEEE Trans Terahertz Science and Technology 1 54

    [2]

    Dobroiu A, Yamashita M, Ohshima Y N, Morita Y, OtaniC, Kawase K 2004 Appl. Opt. 43 5637

    [3]

    Gorshunov B, Volkov A, Spektor I, Prokhorov A, Mukhin A, Dressel M, UchidaS, Loidl A 2005 Int. J. Infrared Millimeter Waves 26 1217

    [4]

    Pronin A V, Goncharov Y G, Fischer T, Wosnitza J 2009 Rev. Sci. Instrum. 80 1

    [5]

    Ives L, Kory C, Read M, Neilson J, Caplan M, Chubun N, Wilcox R, Robinson T 2004 Monterey IEEE International Vacuum Electronics Conference April 27-29 2004 p67

    [6]

    Feng J J, Ren D P, Li H Y, Tang Y, Xing J Y 2011 Terahertz Science and Technology 4 164

    [7]

    Dayton J A, Kory C L, Mearini G T, Malta D, Lueck M, Vancil B 2012 Monterey IEEE International Vacuum Electronics Conference April 24-26 2012 p399

    [8]

    Dayton J A, Kory C L, Mearini G T, 2006 Monterey IEEE International Vacuum Electronics Conference April 25-27 2006 p423

    [9]

    Xu X, Wei Y, Shen F, Huang M Z, Tang T, Duan Z Y, Gong Y B 2012 Chin. Phys. B 21 068402

    [10]

    Mineo M, Paoloni C 2010 IEEE Trans. Electron Devices 57 3169

    [11]

    Shin Y M, Barnett L R, Luhmann N C 2009 IEEE Trans. Electron Devices 56 706

    [12]

    He J, Wei Y Y, Gong Y B, Duan Z Y, Wang W X 2010 Acta Phys. Sin. 59 2843 (in Chinese) [何俊, 魏彦玉, 宫玉彬, 段兆云, 王文祥 2010 物理学报 59 2843]

    [13]

    Mineo M, Paoloni C 2010 IEEE Trans. Electron Devices 57 1481

    [14]

    Collin R E 1966 Foundaations for microwave engineering (New York: McGraw-Hill) p383

    [15]

    McVey B D, Basten M A, Booske J H, Joe J, Scharer J E 1994 IEEE Transactions on Microwave Theory and Techniques 42 995

    [16]

    Zaginaylov G I, Hirata A, Ueda T, Shiozawa T 2000 IEEE Trans. Plasma Science 28 614

    [17]

    Gong Y B, Lu Z G, Wang G J, Wei Y Y, Huang M Z, Wang W X 2006 J. InfraredMillim. Waves 25 0173 (in Chinese) [宫玉彬, 路志刚, 王冠军, 魏彦玉, 黄民智, 王文祥 2006 红外与毫米波学报 25 173]

    [18]

    Lu Z G, Wei Y Y, Gong Y B, Wu Z M, Wang W X 2007 Acta Phys. Sin. 56 3318 (in Chinese) [路志刚, 魏彦玉, 宫玉彬, 吴周淼, 王文祥 2007 物理学报 56 3318]

    [19]

    Lu Z G, Wei Y Y, Gong Y B, Wang W X 2006 J. InfraredMillim. Waves 25 349 (in Chinese) [路志刚, 魏彦玉, 宫玉彬, 王文祥 2006 红外与毫米波学报 25 349]

    [20]

    Pierce J R 1956 IRE Trans. Electron Devices 3183

    [21]

    Booske J H, McVey B D, Antonsen T M 1993 J. Appl. Phys. 73 4140

    [22]

    Nguyen K T, Pasour J A, Antonsen T M, Larsen P B, Petillo J J, Levush B 2009 IEEE Trans. Electron Devices 55 744

    [23]

    Liu Q L, Wang Z C, Liu P K 2012 Acta Phys. Sin. 61 124101 (in Chinese) [刘青伦, 王自成, 刘濮鲲 2012 物理学报 61 124101]

    [24]

    Kory C L, Read M E, Ives R L, Booske J H, Borchard P 2009 IEEE Trans. Electron Devices 56 7

    [25]

    Calame J P, Garven M, Lobas D, Myers R E, Wood F, Abe D K 2006 Monterey IEEE International Vacuum Electronics Conference April 25-27 2006 p37

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Publishing process
  • Received Date:  07 March 2013
  • Accepted Date:  24 April 2013
  • Published Online:  05 August 2013

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