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太赫兹真空电子器件的研究现状及其发展评述

王明红 薛谦忠 刘濮鲲

王明红, 薛谦忠, 刘濮鲲. 太赫兹真空电子器件的研究现状及其发展评述[J]. 电子与信息学报, 2008, 30(7): 1766-1772. doi: 10.3724/SP.J.1146.2007.00858
引用本文: 王明红, 薛谦忠, 刘濮鲲. 太赫兹真空电子器件的研究现状及其发展评述[J]. 电子与信息学报, 2008, 30(7): 1766-1772. doi: 10.3724/SP.J.1146.2007.00858
Wang Ming-hong, Xue Qian-zhong, Liu Pu-kun. Review of THz Vacuum Electronic Devices and Development[J]. Journal of Electronics & Information Technology, 2008, 30(7): 1766-1772. doi: 10.3724/SP.J.1146.2007.00858
Citation: Wang Ming-hong, Xue Qian-zhong, Liu Pu-kun. Review of THz Vacuum Electronic Devices and Development[J]. Journal of Electronics & Information Technology, 2008, 30(7): 1766-1772. doi: 10.3724/SP.J.1146.2007.00858

太赫兹真空电子器件的研究现状及其发展评述

doi: 10.3724/SP.J.1146.2007.00858
基金项目: 

国家863计划项目资助课题

Review of THz Vacuum Electronic Devices and Development

  • 摘要: 太赫兹真空电子器件具有输出功率高、可在常温下工作等优点,它在军用、民用领域有着广泛的应用前景。本文介绍了国内外各种太赫兹真空电子器件研究的技术水平及应用现状,并对其今后发展趋势作了相应的评述。
  • 刘盛纲. 太赫兹科学技术的新发展. 中国基础科学, 2006, 8(1):7-12.Liu Sheng-gang. Recent development of terahertz science andtechnology. China Basic Science, 2006, 8(1): 7-12.[2]Siegel P H. Terahertz technology[J].IEEE Trans. on MicrowaveTheory and Techniques.2002, 50(3):910-928[3]Adri D and Chiko O. Terahertz-wave sources and imagingapplications[J].Institute of physics publishing. MeasurementScience Technology.2006, 17(11):161-174[4]Michael S. Terahertz technology: devices and applications.Proceeding of ESSCIRC, Grenoble, France, 2005: 13-21.[5]Carr G L, Martin M C, and Mckinney W R. High powerterahertz radiation from relativistic electrons[J].Nature.2002,420(14):153-156[6]Liu Shenggang, Yan Yang, and Zhu Dajun, et al.. Thepossible contribution of vacuum electronics to THz radiationsources. IEEE International Conference on VacuumElectronics. Korea, 2003, 4: 357-358.[7]Caplan M and Bongers W A, et al.. Prediction of FOM FEMexperimental results using multi-mode time-dependentsimulations. Nucl. Instr. And Meth. In Phy. Res., 2005, A407(1): 45-49.[8]Gallerano G P. Overview of therahertz radiation sources.Proceedings of the 26th International Free Electron LaserConference, Trieste Italy, 2004: 216-221.[9]Ramian G and Elias L. The new UCSB compact far-infraredFEL. Nucl. Instr. And Meth., 1988, A318(2): 81-88.[10]Sung C, Tochitsky S Ya, and Ralph J E. High-gain seededFEL amplifier tunable in the terahertz range. Proceedings ofthe 27th International free electron laser conference,California, USA, 2005: 87-90.[11]Sobajima Masaaki and Koike Hidehito. Numerical study ofoptical-cavity misalignment effects for a far-infrared FEL.Nucl. Instr. And Meth. 2002, A483(3): 240-244.[12]Bolotin V P, Vinokurov N, and Kayran D A, et al.. Status ofNovosibisk THz FEL, Proceedings of the 2004 FELConference, Korea, 2004: 226-228.Stuart R A and Al-Shammaa A I, et al.. Compact tuneableterahertz source, Proceedings of APAC 2004, Korea, 2004:759-761.[13]Shin Y M, Kim J I, and Han S T, et al.. THz Smith-Purcellradiation enhanced by counter steaming electron bean withone-dimensional photonic. Proceeding of 6th InternationalVacuum electronics Conference, Noordwijk:The Netherlands,2005: 389-390.[14]Toshitaka Idehara, Isamu Ogawa, and Seitaro Mitsudo.Development of frequency tunable, medium power gyrotrons(gyrotron FU Series) as submillimeter wave radiation sources[J].IEEE Trans. on Plasma Sci.1999, 27(2):340-354[15]Agusu La and Tsuchiya H, et al.. The experiment results andtheoretical analysis of a THz gyrotron using a 21T pulsemagnet at FIR FU, Proceeding of 8th International Vacuumelectronics Conference, Japan, 2007: 343-344.[16]Nusinovich Gregory S and Read Michael E. Theroy of steptunablegyrotrons operating at two cyclotron harmonics[J].IEEE Trans. on Plasma Sci.1999, 27(2):355-362[17]Ives L and Kory C, et al.. Development of backward waveoscillators for terahertz applications[J].Proceedings of SPIE.USA.2003, Vol. 5070:71-78[18]Bhattacharjee S, Booske J H, and Kory C L. Foldedwaveguide traveling-wave tube sources for terahertz radiation[J].IEEE Trans. on Plasma Sci.2004, 32(3):1002-1014[19]廖复疆. 微型真空电子器件和太赫兹辐射源技术进展. 电子学报,2003, 31(9): 1361-1364.Liao Fu-jiang. Micro-Vacuum Electron Devices and TerahertzVacuum Sources. Acta Electronica Sinica, 2003, 31(9):1361-1364.[20]Lawrence Ives R. Microfabrication of high-frequency vacuumelectron devices[J].IEEE Trans. on Plasma Sci.2004, 32(3):1277-1291[21]Joan Garcia-Garcia and Ferran Martin, et al.. Optimizationof micromachined reflex klystrons for operation at terahertzfrequencies[J].IEEE Trans. on Microwave Theory andTechniques.2004, 52(10):2366-2370[22]Manohara H M, Siegel P H, and Marrese C, et al.. Fabricationand Emitter Measurements for Nanoklystron: A Novel THzMicro-Tube Source. Third IEEE International VacuumElectronics Conference- IVEC, USA, 2002: 28-29.[23]George P A, Manolatou C, and Rana F, et al.. Interatedmicrocavity klystrons for generating high power coherentterahertz radiation[J].2005 Conference on Lasers Electro-Optics (CLEO). Maryland, USA.2005, Vol.3:1951-1953[24]Cherkassky V S and Knyazev B A, et al.. Imaging techniquesfor a high-power THz free electron laser. Nucl. Instr. AndMeth. 2005, A543(1): 102-109.[25]Jeong Y U and Kazakevitch G M, et al.. Application of awide-band compact FEL on THz Imaging. Nucl. Instr. AndMeth. 2005, A543(1): 90-95.[26]Bogomolov G D and Jeong Y U, et al.. Generation of surfaceelectromagnetic waves in terahertz spectral range byfree-electron laser radiation and their refractive indexdetermination. Nucl. Instr. And Meth., 2005, A543(1):96-101.[27]Doria A, Gallerano G P, and Giovenale E, et al.. THzradiation studies on biological systems at the ENEA FELfacility. Infrared Physics and Technology 2004, 45(5):339-347.[28]Philipp M, Graf U, and Wagner G A, et al.. Compact 1[J].9THzBWO local-oscillator for the GREAT heterodyne receiver.Infrared Physics Technology.2007, 51(1):54-59[29]Dobroiu A, Yamashita M, and Ohshima Y N, et al.. Terahertzimaging system based on a backward-wave oscillator. AppliedOptics, 2004, 43(30): 5637-5646.[30]Spektor A, Anzin V, and Goncharov Y, et al.. Methodologyand hardware of terahertz BWO-Spectroscopy[J].The joint30th Conference on infrared and millimeter waves 13thInternational International Conference on terahertzelectronics. Virginia, USA.2005, Vol.1:168-169[31]Mitsudo S, Hoshizuki H, and Idehera T. Development ofmaterial processing system by using a 300 GHz CW gyrotron.Journal of Physics, 2006, 51(1): 549-552.[32]Sirigiri J R, Kreischer K E, and Machuzak J, et al..Photonic-band-gap resonator gyrotron[J].Physical ReviewLetters.2001, 86(24):5628-5631[33]Vela G O, Miller M S, Grow R W, and Baird J M. Terahertzbackward oscillators with photonic crystal waveguides. IEEEInternational Vacuum Electronics Conference, USA, 2006:425-426.
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出版历程
  • 收稿日期:  2007-06-01
  • 修回日期:  2008-03-19
  • 刊出日期:  2008-07-19

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