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The micro-vacuum electronic device is one of the most promising sources for the generation of high power THz-wave radiations. In this paper, the systematical theoretical analyses and computer simulations on the physical mechanism of a kind of micro-vacuum electronic THz radiation source based on the cathode of field-emission array (FEA) are carried out. The mode matching method is used to study the electromagnetic characteristics of the structure, and -mode is confirmed to be an optimal operation mode for its field distribution. Linear theory (small signal theory) is used to analyze the beam-wave interaction of this kind of source, and the starting condition of the -mode oscillation is derived. The premodulation of electron beam emitted from FEA and the electron transit time effect in the interaction gap are the physical cause of the electromagnetic oscillation. These results are well verified by the computer simulations.
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Keywords:
- THz sources /
- FEA /
- premodulation /
- transit time effect
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[1] Liu S G 2006 China Basic Science 1 7 (in Chanese) [刘盛纲 2006 中国基础科学 1 7]
[2] Siegel P H 2002 IEEE transactions on Microwave Theory and Techniques 50 91
[3] Bradley Ferguson, Zhang X C 2003 Phys. 32 286 (in Chiense) [Bradley Ferguson, 张希成 2003 物理 32 286]
[4] Sun B, Yao J Q 2006 Chinese Journal of Lasers 33 1349 (in Chanese) [孙博, 姚建铨 2006 中国激光 33 1349].
[5] Cao J C 2006 Phys. 35 632 (in Chiense) [曹俊诚 2006 物理 35 632]
[6] Zhang R, Cao J C 2010 Acta Phys. Sin. 59 3294 (in Chiense) [张戎, 曹俊诚 2010 59 3294]
[7] Liu H, Xu D G, Yao J Q 2008 Acta Phys. Sin. 57 5662 (in Chiense) [刘欢, 徐德刚, 姚建铨 2008 57 5662]
[8] Wang Y Y, Zhang C H, Ma J L, Jin B B, Xu W W, Kang L, Chen J, Wu P H 2010 Acta Phys. Sin. 58 6884 (in Chiense) [王媛媛, 张彩虹, 马金龙, 金飙兵, 许伟伟, 康琳, 陈健, 吴培亨 2010 58 6884]
[9] Kohler R, Tredicucci A, Beltram F 2002 Nature 417 156
[10] Schmuttenmaer C A 2008 International Journal of Terahertz Science and Technology 1 1
[11] Booske J H 2001 IEEE International Conference on Plasma Science p O1E5
[12] Schwoebel P R, Spindt C A, Holland C E 2005 J. Vac. Sci. Technol. B 23 691
[13] Vishnu Srivastava 2008 Journal of Physics: Conference Series 114 012015
[14] Liao F J 2003 Acta Elets. Sin. 31 1361 (in Chinese) [廖复疆 2003 电子学报 31 1361]
[15] Liao F J 2006 Acta Elets. Sin. 34 513 (in Chinese) [廖复疆 2006 电子学报 34 513]
[16] Spindt C A, Holland C E, Rosengreen A, Ivor Brodie 1991 IEEE Trans. on ED 38 2355
[17] Qin H F, Guo T L 2008 Acta Phys. Sin. 57 1224 (in Chiense) [覃华芳, 郭太良 2008 57 1224]
[18] Wang Y, Wu Q, Shi w, He X J, Yin J H 2009 Acta Phys. Sin. 58 924 (in Chiense) [王玥, 吴群, 施卫, 贺训军, 殷景华 2009 58 924]
[19] Wang Y, Wu Q, Wu Y M, Bo J H, Wang D X, Wang Y, Li L W 2011 Acta Phys. Sin. 60 057801 (in Chiense) [王玥, 吴群, 吴昱明, 博佳辉, 王东兴, 王岩, 李乐伟 2011 60 057801]
[20] Lin M C, Huang K H, Lu P S, Lin P Y, Jao R F 2005 J. Vac. Sci. Technol. B 23 849
[21] Lin M C, Lu P S 2005 J. Vac. Sci. Technol. B 23 636
[22] Lin M C, Lu P S 2007 J. Vac. Sci. Technol. B 25 631
[23] Fowler R H, Nordheim L W 1929 Proc. R. Soc. London, Ser. A 119 173
[24] Nordheim L W 1928 Proc. R. Soc. London, Ser. A 121 626
[25] Busta, Heinz H, Spindt, Charles A 1991 IEEE Transactions on Electron Devices 38 2558
[26] Zhang Z T 1980 Principles of Microwave Electronics (II) (Beijing: National Defence Industry Press) p113---p116 (in Chanese) [张兆镗 1980 微波电子管原理(下) (北京: 国防工业出版社) 第113---116页]
[27] Zhou C M, Liu G Z, Liu Y G, Li J Y, Ding W 2007 High Power Microwave Sources (Beijing: Atomic Energy Press) p89---p93 (in Chinese) [周传明, 刘国治, 刘永贵, 李家胤, 丁武 2007 高功率微波源 (北京: 原子能出版社) 第89---93页]
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