离子通道中的虚阴极辐射

苏东; 邓立科; 王斌

doi:10.7498/aps.63.235204

摘要

提出了一种新型的基于等离子体的多级虚阴极振荡器物理模型并展开了研究. 研究表明: 当电子束通过稠密等离子体背景时, 由于离子背景和焦点处虚阴极的共同作用, 得以形成多级虚阴极; 多级虚阴极对电子的作用, 使电子在各级之间振荡, 从而产生高功率微波辐射. 这是与离子通道横向的betatron振荡完全不同的一种辐射机理. 通过质点网格 (particle in cell)法模拟验证了多级虚阴极的形成, 模拟中发现, 所选参数TM024模被激发起来. 最后, 在所建模型的基础之上对辐射特性做了详细分析.

关键词:

Abstract

A novel electromagnetic (EM) radiation regime, the plasma-based multistage virtual cathode radiation model is proposed. Recent study indicates that, as an electron beam passes through a high-dense ion background, due to the cooperation of the ion background and the modulation of the virtual cathode formed at the focusing point, a multistage virtual cathode can be formed. Further studies show that the electrons reflected at different stages of the virtual cathode will come into oscillation, and the EM radiation will be excited, which is different from the betatron emission in an ion channel. As an example, a beam-ion channel system bound in a cylindrical cavity is studied by using particle in cell simulation. It is confirmed that a multistage virtual cathode is formed and EM radiation is induced. Finally, the characteristics of the radiation are discussed in the present paper.

Keywords:

作者及机构信息

1.
中国电子科技集团公司第26研究所, 重庆 400060;

2.
重庆邮电大学光电工程学院, 重庆 400065

基金项目: 重庆市教委科学技术研究项目(批准号:KJ120505)资助的课题.

Authors and contacts

1.
China Electronics Technology Group Corporation 26th Reserch Institute, Chongqing 400060, China;

2.
College of Electronic Engineering, Chongqing University of Posts and Telecommunications, Chongqing 400065, China

Funds: Project supported by the Science and Technology Research Project of Chongqing Municipal Educational Commission of China (Grant No. KJ120505).

参考文献

[1]	Sullivan D J, Walsh J E, Coutsias A E, Granatstein V L, Alexeff I 1987 High Power Microwave Source (Boston: Artech House) p441
[2]	Thode L E, Granatstein V L, Alexeff I 1987 High Power Microwave Source (Boston: Artech House) p507
[3]	Fan Y W, Li Z Q, Shu T, Liu J 2014 Chin. Phys. B 23 075208
[4]	Liu J, Shu T, Li Z Q 2011 Acta Phys. Sin. 60 105202 (in Chinese) [刘静, 舒挺, 李志强 2011 物理学报 60 105202]
[5]	Yang C, Liu D G, Zhou J, Liao C, Peng K, Liu SG 2011 Acta Phys. Sin. 60 084102 (in Chinese) [杨超, 刘大刚, 周俊, 廖臣, 彭凯, 刘盛纲 2011 物理学报 60 084102]
[6]	Wang B, Tang C J, Liu P K 2006 Acta Phys. Sin. 55 5953 (in Chinese) [王斌, 唐昌建, 刘濮鲲 2006 物理学报 55 5953]
[7]	Su D, Tang C J 2009 Phys. Plasmas 16 053101
[8]	Mirzanejhad S, Sohbatzadeh F, Sedaghat Z, Mahdian Z 2010 Phys. Plasma 17 053106
[9]	Wang Z Y, Tang C J 2010 Phys. Plasmas 17 083114
[10]	Mirzanejhad S, Sohbatzadeh F, Heidari Z 2012 J. Plasma Phys. 78 25
[11]	Su D, Tang C J 2011 Phys. Plasmas 18 023104
[12]	Zhang K Q, Li D J 2002 Electromagnetic Theory for Microwave and Optcelectronics (2th Ed.) (Beijing: Publishing House of Electronics Industry) p182 (in Chinese) [张克潜, 李德杰 2002 微波与光电子学中的电磁理论(第二版) (北京: 电子工业出版社) p182]

施引文献

[1]	Sullivan D J, Walsh J E, Coutsias A E, Granatstein V L, Alexeff I 1987 High Power Microwave Source (Boston: Artech House) p441
[2]	Thode L E, Granatstein V L, Alexeff I 1987 High Power Microwave Source (Boston: Artech House) p507
[3]	Fan Y W, Li Z Q, Shu T, Liu J 2014 Chin. Phys. B 23 075208
[4]	Liu J, Shu T, Li Z Q 2011 Acta Phys. Sin. 60 105202 (in Chinese) [刘静, 舒挺, 李志强 2011 物理学报 60 105202]
[5]	Yang C, Liu D G, Zhou J, Liao C, Peng K, Liu SG 2011 Acta Phys. Sin. 60 084102 (in Chinese) [杨超, 刘大刚, 周俊, 廖臣, 彭凯, 刘盛纲 2011 物理学报 60 084102]
[6]	Wang B, Tang C J, Liu P K 2006 Acta Phys. Sin. 55 5953 (in Chinese) [王斌, 唐昌建, 刘濮鲲 2006 物理学报 55 5953]
[7]	Su D, Tang C J 2009 Phys. Plasmas 16 053101
[8]	Mirzanejhad S, Sohbatzadeh F, Sedaghat Z, Mahdian Z 2010 Phys. Plasma 17 053106
[9]	Wang Z Y, Tang C J 2010 Phys. Plasmas 17 083114
[10]	Mirzanejhad S, Sohbatzadeh F, Heidari Z 2012 J. Plasma Phys. 78 25
[11]	Su D, Tang C J 2011 Phys. Plasmas 18 023104
[12]	Zhang K Q, Li D J 2002 Electromagnetic Theory for Microwave and Optcelectronics (2th Ed.) (Beijing: Publishing House of Electronics Industry) p182 (in Chinese) [张克潜, 李德杰 2002 微波与光电子学中的电磁理论(第二版) (北京: 电子工业出版社) p182]

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