相对论电子在高斯激光场中的加速

尹丰; 陶向阳

doi:10.3969/j.issn.1001-3806.2011.03.025

相对论电子在高斯激光场中的加速

尹丰,
陶向阳^,

1.
江西师范大学物理与通信电子学院, 南昌 330022

作者简介: 尹丰(1985-)，男，硕士研究生，主要从事激光与粒子相互作用的研究。.

通讯作者: 陶向阳, x.y.tao@163.com

基金项目:
国家自然科学基金资助项目(10963002);江西省创新团队项目(强激光与新能源团队)资助项目
中图分类号: O437

Acceleration of relativistic electrons in Gaussian laser electromagnetic field

YIN Feng,
TAO Xiang-yang^,

1.
College of Physics and Communication Electronics, Jiangxi Normal University, Nanchang 330022, China

Corresponding author: TAO Xiang-yang, x.y.tao@163.com

CLC number: O437

摘要: 为了研究激光电磁场对真空中电子的作用,从洛伦兹方程出发,得出了电子运动轨迹,实现了激光场对电子的加速。继而由运动电子产生的流密度,得到了电子的辐射能量谱,分析了相对论电子的辐射特点。结果表明,高斯激光场对真空中电子有很好的加速效果,最大轴向速度可达0.9c。
- 激光光学 /
- 电子加速 /
- 数值分析 /
- 辐射谱
Abstract: In order to study the effect of the laser electromagnetic field on the electron in vacuum，based on the Lorentz equation，the motion track of electrons was simulated，and the electrons were accelerated in the laser electromagnetic field. Then the radiant energy spectrum was obtained according to the flux density generated by the motive electron. Finally the radiant characteristics of the relativistic electrons were analyzed. It is shown that Gaussian laser electromagnetic field has beneficial effect on vacuum electron acceleration，and its maximum speed along the optical axis is up to 0.9c.
- laser optics /
- electron acceleration /
- numerical analysis /
- radiant spectrum

[1]	PARDY M.The quantum field theory of laser acceleration[J].Physics Letters,1998,A243(4):223-228.
[2]	FEDOROV M V,GORES LAVSKY S P,LETOHOV V S,et al.Ponderomotive forces and stimulated Compton scattering of free electrons in a laser field[J].Physical Review,1997,E55(1):1015-1027.
[3]	HARTEMANN F V,KERMAN A.Classical theory of nonlinear Compton scattering[J].Physical Review Letters,1996,76(4):624-627.
[4]	QUESNEL B,MORA P.Theory and simulation of the interaction of ultraintense laser pulses with electrons in vacuum[J].Physical Review，1998，E58(3):3719-3712.
[5]	HAFIZI B,GANGULY A K,TING A,et al.Analysis of Gaussian beam and Bessel beam driven laser accelerators[J].Physical Review,1999,E60(4):4779-4792.
[6]	LEEMANS W P,NAGLER B,GONSALVES A J,et al.GeV electron beams from a centimetre-scale accelerator[J].Nature Physics,2006,2(10):696-699.
[7]	MANGLES S P D,MURPHY C D,NAJMUDIN Z,et al.Monoenergetic beams of relativistic electrons from intense laser-plasma interactions[J].Nature,2004,431(7008):535-538.
[8]	GEDDES C G R,TOTH CS,ESAREY E,et al.High-quality electron beams from a laser wakefield accelerator using plasma-channel guiding[J].Nature,2004,431(7008):538-541.
[9]	FAURE J,GLINEC Y,PUKHOV A,et al.A laser-plasma accelerator producing monoenergetic electron beams[J].Narure,2004,431(7008):541-544.
[10]	CHEN M,SHENG Z M,ZHANG J,et al.On the angular distribution of fast electrons generated in intense laser interaction with solid targets[J].Physics of Plasmas,2006,13(1):4504-4507.
[11]	HE X K,LI R X,SHUAI B,et al.Phase dependence of electron acceleration in a tightly focused laser beam[J].Physics of Plasmas,2005,12(7):3101-3105.
[12]	ZHAO Z G,L B D.Direct acceleration of electrons by a Laguerre-Gaussian laser beam in vacuum[J].Acta Physica Sinica,2006,55(4):1798-1802(in Chinese).
[13]	LI X Q.Collapsing dynamics of plasmons[M].Beijing:China Seience and Technology Press,2003:11-18(in Chinese).
[14]	LI Z W,XIAO X H.Astrophysics[M].Beijing:Higher Education Press,2000:39-43(in Chinese).
[15]	Lü B D.Laser optics[M].3rd ed.Beijing:Higher Education Press,2003:98-102 (in Chinese).
[16]	HE X K,LI R X,SHUAI B,et al.Electron acceleration in a tightly focused laser beam [J].Chinese Optics Letters,2005,3(6):364-366.
[17]	SALAMIN Y I,FAISAL F H.Relativistic free-electron dynamics and light-emission spectra in the simultaneous presence of a superintense laser field and a strong uniform magnetic field[J].Physical Review,1998,A58(4):3221-3234.
[18]	SALAMIN Y I,FAISAL F H M,KEITEL C H.Exact analysis of ultrahigh laser-induced acceleration of electrons by cyclotron autoresonance[J].Physical Review,2000,A62(5):3809-3823.
[19]	SALAMIN Y I,KEITEL C H.Electron acceleration by a tightly focused laser beam[J].Physical Review Letters,2002,88(9):5005-5008.
[20]	ZHAO S Y.Research of compton radiation of relativistic charged particles in laser electromagnetic field[D].Nanchang:Nanchang University,2007:38-48(in Chinese).
[21]	HE F,YU W.Ponderomotive acceleration of electrons by a tightly focused intense laser beam[J].Physical Review,2003,E68(4):6407-6411.
[22]	LIU X L,LIU S Q,YANG X S.Strong Langmuir turbuleuce excited by laser near critical surface[J].Laser Technology,2007,31(2):213-216(in Chinese).
[23]	ZHANG W D,LIU S Q,XIAO Q S,et al.Locomotion radiation of monopole by hyperbola in plasma[J].Journal of Nanchang University,2008,32(2):186-189(in Chinese).
[24]	JACKSON J D.Classical electrodynamics[M].Beijing:Higher Education Press,2002:311-315.

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相对论电子在高斯激光场中的加速

作者简介: 尹丰(1985-)，男，硕士研究生，主要从事激光与粒子相互作用的研究。.

通讯作者: 陶向阳, x.y.tao@163.com

Acceleration of relativistic electrons in Gaussian laser electromagnetic field

Corresponding author: TAO Xiang-yang, x.y.tao@163.com

计量

相对论电子在高斯激光场中的加速

通讯作者: 陶向阳, x.y.tao@163.com

作者简介: 尹丰(1985-)，男，硕士研究生，主要从事激光与粒子相互作用的研究。

English Abstract

Acceleration of relativistic electrons in Gaussian laser electromagnetic field

Corresponding author: TAO Xiang-yang, x.y.tao@163.com

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相对论电子在高斯激光场中的加速

作者简介: 尹丰(1985-)，男，硕士研究生，主要从事激光与粒子相互作用的研究。.

通讯作者: 陶向阳, x.y.tao@163.com

Acceleration of relativistic electrons in Gaussian laser electromagnetic field

Corresponding author: TAO Xiang-yang, x.y.tao@163.com

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出版历程

相对论电子在高斯激光场中的加速

通讯作者: 陶向阳, x.y.tao@163.com

作者简介: 尹丰(1985-)，男，硕士研究生，主要从事激光与粒子相互作用的研究。

English Abstract

Acceleration of relativistic electrons in Gaussian laser electromagnetic field

Corresponding author: TAO Xiang-yang, x.y.tao@163.com

全文HTML

目录