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Based on surface-wave oscillator (SWO), the high power 0.34 THz source using over-moded structure is studied. The attention is paid to the influence of the parameters of the slow-wave structure (SWS) on the dispersion curve, and then the SWS is optimized. According to the simulation results, the size of SWS and the requirements for the accuracy in the SWS machining are confirmed. Finally, the source is simulated by the particle-in-cell method. Numerical results show that the structure is capable of radiating a terahertz signal with a frequency of 0.34 THz and a maximum output power of about 7.8 MW. Moreover, the structure works in the state of an SWO stably. The research of the SWS is the foundation of the design of 0.34 THz source, and it is also very meaningful for the realization of the source in engineering.
[1] Dragoman D, Dragoman M 2004 Prog. Quant. Electron. 28 1
[2] Booske J H 2008 Phys. Plasmas 15 055502
[3] Xu J Z, Zhang X C 2007 The Science, Technology and Applications of Telahertz (Beijing: Beijing University Press) pp5-7 (in Chinese) [许景周, 张希成 2007 太赫兹科学技术和应用(北京: 北京大学出版社)第5–7页]
[4] Zhang H, Wang J G, Tong C J, Li X Z, Wang G Q 2009 Phys. Plasmas 16 123104
[5] Li X Z, Wang J G, Song Z M, Chen C H, Sun J, Zhang X W, Zhang Y C 2012 Phys. Plasmas 19 083111
[6] Wang G Q, Wang J G, Li X Z, Fan R Y, Wang X Z, Wang X F, Tong C J 2010 Acta Phys. Sin. 59 8459 (in Chinese) [王光强, 王建国, 李小泽, 范如玉, 王行舟, 王雪锋, 童长江 2010 59 8459]
[7] Wang G Q, Wang J G, Tong C J, Li X Z, Wang X F 2011 Acta Phys. Sin. 60 030702 (in Chinese) [王光强, 王建国, 童长江, 李小泽, 王雪锋 2011 60 030702]
[8] Li X Z, Wang G Q, Wang J G, Tong C J, Wang X F, Song Z M, Li S, Lu X C 2013 High Power Laser and Particle Beams 25 451 (in Chinese) [李小泽, 王光强, 王建国, 童长江, 王雪锋, 宋志敏, 李爽, 陆希成 2013 强激光与粒子束 25 451]
[9] Ives L, Kory C, Read M, Neilson J, Caplan M, Chubun N, Schwartzkopf S, Witherspoon R 2003 Proceedings of SPIE Orlando, USA, April 21, 2003 pp71-82
[10] Vlasov A N, Shkvarunets A G, Rodgers J C, Carmel Y, Antonsen T M, Abuelfadl T M, Duan L, Cherepenin V A, Nusinovich G S, Botton M, Granatstein V L 2000 IEEE Trans. Plasma Sci. 28 550
[11] Amin M R, Ogura K, Kitamura H, Minami K, Watanabe T, Carmel Y, Weaver J, Destler W W, Granatstein V L, Main W 1995 IEEE Trans. Microwave Theory and Techniques 43 815
[12] Zhang H, Wang J G, Tong C J 2008 J. Xi'An Jiaotong Univ. 42 1531 (in Chinese) [张海, 王建国, 童长江 2008西安交通大学学报 42 1531]
[13] Nusinovich G S, Bliokh Y P 2000 Phys. Plasmas 7 1294
[14] Feng J J, Liao F J, Zhu M, Yan T C 2005 Vacuum Electron. 6 8 (in Chinese) [冯进军, 廖复疆, 朱敏, 闫铁昌2005真空电子技术 6 8]
[15] Wang J G, Zhang D H, Liu C L, Li Y D, Wang Y, Wang H G, Qiao H L, Li X Z 2009 Phys. Plasmas 16 033108
[16] Wang J G, Wang Y, Zhang D H 2006 IEEE Trans. Plasma Sci. 34 681
[17] Tong C J, Li X Z, Wang J G, Wang X Z, Wang G Q 2009 Proceedings of SPIE Beijing, China, June 17-19, 2009 p738510
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[1] Dragoman D, Dragoman M 2004 Prog. Quant. Electron. 28 1
[2] Booske J H 2008 Phys. Plasmas 15 055502
[3] Xu J Z, Zhang X C 2007 The Science, Technology and Applications of Telahertz (Beijing: Beijing University Press) pp5-7 (in Chinese) [许景周, 张希成 2007 太赫兹科学技术和应用(北京: 北京大学出版社)第5–7页]
[4] Zhang H, Wang J G, Tong C J, Li X Z, Wang G Q 2009 Phys. Plasmas 16 123104
[5] Li X Z, Wang J G, Song Z M, Chen C H, Sun J, Zhang X W, Zhang Y C 2012 Phys. Plasmas 19 083111
[6] Wang G Q, Wang J G, Li X Z, Fan R Y, Wang X Z, Wang X F, Tong C J 2010 Acta Phys. Sin. 59 8459 (in Chinese) [王光强, 王建国, 李小泽, 范如玉, 王行舟, 王雪锋, 童长江 2010 59 8459]
[7] Wang G Q, Wang J G, Tong C J, Li X Z, Wang X F 2011 Acta Phys. Sin. 60 030702 (in Chinese) [王光强, 王建国, 童长江, 李小泽, 王雪锋 2011 60 030702]
[8] Li X Z, Wang G Q, Wang J G, Tong C J, Wang X F, Song Z M, Li S, Lu X C 2013 High Power Laser and Particle Beams 25 451 (in Chinese) [李小泽, 王光强, 王建国, 童长江, 王雪锋, 宋志敏, 李爽, 陆希成 2013 强激光与粒子束 25 451]
[9] Ives L, Kory C, Read M, Neilson J, Caplan M, Chubun N, Schwartzkopf S, Witherspoon R 2003 Proceedings of SPIE Orlando, USA, April 21, 2003 pp71-82
[10] Vlasov A N, Shkvarunets A G, Rodgers J C, Carmel Y, Antonsen T M, Abuelfadl T M, Duan L, Cherepenin V A, Nusinovich G S, Botton M, Granatstein V L 2000 IEEE Trans. Plasma Sci. 28 550
[11] Amin M R, Ogura K, Kitamura H, Minami K, Watanabe T, Carmel Y, Weaver J, Destler W W, Granatstein V L, Main W 1995 IEEE Trans. Microwave Theory and Techniques 43 815
[12] Zhang H, Wang J G, Tong C J 2008 J. Xi'An Jiaotong Univ. 42 1531 (in Chinese) [张海, 王建国, 童长江 2008西安交通大学学报 42 1531]
[13] Nusinovich G S, Bliokh Y P 2000 Phys. Plasmas 7 1294
[14] Feng J J, Liao F J, Zhu M, Yan T C 2005 Vacuum Electron. 6 8 (in Chinese) [冯进军, 廖复疆, 朱敏, 闫铁昌2005真空电子技术 6 8]
[15] Wang J G, Zhang D H, Liu C L, Li Y D, Wang Y, Wang H G, Qiao H L, Li X Z 2009 Phys. Plasmas 16 033108
[16] Wang J G, Wang Y, Zhang D H 2006 IEEE Trans. Plasma Sci. 34 681
[17] Tong C J, Li X Z, Wang J G, Wang X Z, Wang G Q 2009 Proceedings of SPIE Beijing, China, June 17-19, 2009 p738510
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