Relativistic Langmuir solitons in ultrapowerful laser plasma
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摘要: 为了研究相对论性朗缪尔孤子的特性,对从动力论出发所获得的超强等离子体中相对论性强朗缪尔湍动控制方程组进行了理论分析。结果表明,随着电子的平均洛伦兹因子以及场的湍动参量增加,朗缪尔孤子的波包半宽变窄,孤子总能量和总动量相应地增大,且电子的相对论效应对孤子总能量和动量的非线性部分的影响远大于线性部分。该研究可为超强激光等离子体中相关的非线性现象提供新的理论参考。Abstract: In order to study the characteristics of relativistic Langmuir solitons, the control equations of relativistic strong Langmuir turbulence in ultrapowerful laser plasma were obtained from momentum theory. And then, theoretical analysis was made. The research shows that half-width of wave-packet will become narrower and the total energy and momentum of solitons will become bigger with the increasing of average Lorentz factor of electrons and turbulence parameter of field. The relativistic effect of electrons affects the total energy and momentum of the solitons much larger in the nonlinear part than in the linear part. The results will provide the theoretical reference on the nonlinear phenomenon in ultrapowerful laser plasma.
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[1] LU X,WANG D Sh. Modulation instability in dispersion managed soliton systems[J]. Laser Technology,2012,36(4):557-561(in Chinese).
[2] SHEN Y Ch,ZHANG Y P,DAI Y,et al. Application of nonlinear Schrdinger equation in high speed optical soliton communication systems[J]. Laser Technology,2009,33(2):180-183(in Chinese).
[3] CHEN W Ch,XU W Ch. Vector soliton bunches in mode-locked fiber lasers[J]. Laser Technology,2010,34(3):354-356(in Chinese).
[4] CHENG Y,XU Z Z,SHEN B F. A soliton solution for laser pulse and wake-field of intense laser-plasma interaction[J]. Acta Optica Sinca,1996,16(9):1342-1343(in Chinese).
[5] IVANOV M J,TERENTIEVA L V. Soliton-like structures in dark matter[J]. Nuclear Physics,2003,B124(s1):148-151.
[6] HAO D Sh. A new accelerated mechanism of protons in high power laser-plasma[J]. Laser Technology,2012,36(4):653-656(in Chinese).
[7] LI L H. Solar coronal heating caused by Langmuir soliton turbulence[J]. Publications of Purple Mountain Observatory,1994,13(3): 212-218.
[8] ROBINSON P A. Nonlinear wave collapse and strong turbulence[J].Reviews of Modern Physics,1997,69(2): 507-573.
[9] DAVYDOVA T A,YAKIMENKO A I,ZALIZNYAK Y A. Stable spatial Langmuir solitons[J]. Physics Letters,2005,A336(1):46-52.
[10] LIU X L,LIU S Q,YANG X S. Strong Langmuir turbulence excited by laser near critical surface[J]. Laser Technology,2007,31(2):213-216(in Chinese).
[11] LIU X L,LI X Q, LIU S Q. Relativistically strong Langmuir turbulence in the kinetic regime[J]. Physics of Plasmas,2010,18(8):082301.
[12] LI X Q,LIU S Q. Relativistically modulation interaction and nonlinear collapse[M]. Beijing: China Science and Technology Press,2012:146-158(in Chinese).
[13] LI X Q. Turbulence plasma physics[M]. Beijing: Beijing Normal University Press,1985:271(in Chinese).
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