Propagation of finite length laser pulses in plasma channels

Sprangle P.; Serafim P.; Hafizi B.

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Propagation of finite length laser pulses in plasma channels

机译：等离子体通道中有限长度激光脉冲的传播

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Finite pulse length effects are shown to play a major role in the propagation. stability, and guiding of intense laser beams in plasmas. We present the quasiparaxial approximation (QPA) to the wave equation that takes finite pulse length effects into account. The QPA is an extension of the usual paraxial approximation. The laser field is shown to be significantly modified for pulses less than a few tens of wavelengths long. A pair of coupled envelope-power equations having finite pulse length effects, as well as relativistic and atomic electron nonlinearities, is derived and analyzed. Short laser pulses propagating in plasma channels are found to undergo an envelope oscillation in which the front of the pulse is always damped while the back initially grows. The modulation eventually damps due to frequency spread phase mixing. In addition, finite pulse length effects are shown to modify nonlinear focusing processes significantly. [S1063-651X(99)13003-4]. [References: 60]

机译：有限的脉冲长度效应在传播中起主要作用。稳定性，以及在等离子体中引导强激光束。我们提出了波动方程的准旁轴近似（QPA），其中考虑了有限的脉冲长度效应。 QPA是常规近轴近似的扩展。对于少于几十个波长长的脉冲，激光场被显着修改。导出并分析了一对具有有限脉冲长度效应以及相对论和原子电子非线性的耦合包络功率方程。发现在等离子通道中传播的短激光脉冲会发生包络振荡，在该振荡中，脉冲的前部始终被衰减，而后部则开始增大。由于频率扩展相位混合，调制最终会衰减。另外，有限的脉冲长度效应被显示可以显着地改变非线性聚焦过程。 [S1063-651X（99）13003-4]。 [参考：60]

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《Physical review, E. Statistical physics, plasmas, fluids, and related interdisciplinary topics 》 |1999年第2期| 共10页
作者
Sprangle P.; Serafim P.; Hafizi B.;
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正文语种 eng
中图分类物理学 ;
关键词
Free-electron laser; Wave-guide; Harmonic-generation; Injected electrons; Acceleration; Intense; Vacuum; Scattering; Raman; Beams;

机译：自由电子激光;波导;谐波产生;注入电子;加速度;强烈;真空;散射;拉曼;光束;

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1. Propagation of finite length laser pulses in plasma channels [J] . Sprangle P., Serafim P., Hafizi B. Physical review, E. Statistical physics, plasmas, fluids, and related interdisciplinary topics . 1999 ,第3aPta2期

机译：等离子体通道中有限长度激光脉冲的传播
2. Peculiarities of Propagation and Amplification of Ultrashort Terahertz Pulses in Strongly Nonequilibrium Plasma Channels Produced in Air by UV Femtosecond Laser Pulses during Multiquantum Ionization [J] . Bogatskaya A. V., Volkova E. A., Popov A. M. Journal of Experimental and Theoretical Physics . 2020 ,第5期

机译：通过UV Femtosecond激光脉冲在多谜离电离期间在空气中产生的强烈凝固血浆通道的繁殖和扩增繁殖和扩增的特性
3. Group velocity and pulse lengthening of mismatched laser pulses in plasma channels [J] . Schroeder C.B., Benedetti C., Esarey E., Physics of plasmas . 2011 ,第8期

机译：等离子体通道中不匹配的激光脉冲的群速度和脉冲延长
4. Experimental study on the propagation of high intense laser pulse in an underdense plasma with pulse length comparable with the background plasma wavelength [C] . Y. Tang, S. Han, J. Cheng, 7th International Conference on X-Ray Lasers, Jun 19-23, 2000, Saint-Malo, France . 2000

机译：高强度激光脉冲在低密度等离子体中传播的实验研究，脉冲长度与背景等离子体波长相当
5. High power nonlinear propagation of laser pulses in tenuous gases and plasma channels. [D] . Wu, Jianzhou. 2005

机译：激光脉冲在微弱气体和等离子通道中的大功率非线性传播。
6. Towards Remote Lightning Manipulation by Meters-long Plasma Channels Generated by Ultra-Short-Pulse High-Intensity Lasers [O] . Jenya Papeer, Indranuj Dey, Moti Botton, -1

机译：通过超短脉冲高强度激光产生的米长等离子通道实现远程雷电操纵
7. HIGH POWER NONLINEAR PROPAGATION OF LASER PULSES IN TENUOUS GASES AND PLASMA CHANNELS [O] . Wu Jianzhou 2005

机译：脉冲气体和等离子通道中激光脉冲的高功率非线性传播
8. Group Velocity and Pulse Lengthening of Mismatched Laser Pulses in Plasma Channels. [R] . Schroeder, C. B., Beneditti, C., Esarey, E., 2011

机译：等离子体通道中不匹配激光脉冲的群速度和脉冲延长。

Propagation of finite length laser pulses in plasma channels

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