Numerical simulations of self-focusing of ultrafast laser pulses - art. no. 056603

Fibich G.; Ren WQ.; Wang XP.

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Numerical simulations of self-focusing of ultrafast laser pulses - art. no. 056603

机译：超快激光脉冲自聚焦的数值模拟-艺术没有。 056603

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Simulation of nonlinear propagation of intense ultrafast laser pulses is a hard problem, because of the steep spatial gradients and the temporal shocks that form during the propagation. In this study we adapt the iterative grid distribution method of Ren and Wang [J. Comput. Phys. 159, 246 (2000)] to solve the two-dimensional nonlinear Schrodinger equation with normal time dispersion, space-time focusing, and self-steepening. Our simulations show that, after the asymmetric temporal pulse splitting, the rear peak self-focuses faster than the front one. As a result, the collapse of the rear peak is arrested before that of the front peak. Unlike what has sometimes been conjectured, however, collapse of the two peaks is not arrested through multiple splittings, but rather through temporal dispersion. [References: 24]

机译：强烈的超快激光脉冲的非线性传播仿真是一个难题，因为在传播过程中会形成陡峭的空间梯度和时间冲击。在这项研究中，我们采用了Ren和Wang的迭代网格分布方法[J．计算物理159，246（2000）]来求解具有正常时间色散，时空聚焦和自增强的二维非线性Schrodinger方程。我们的仿真表明，在非对称时间脉冲分裂之后，后峰的自聚焦速度快于前峰。结果，后峰的塌陷在前峰的塌陷之前被阻止。但是，与有时可以推测的情况不同，这两个峰的崩溃不是通过多次分裂来阻止，而是通过时间分散来阻止。 [参考：24]

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《Physical review, E. Statistical physics, plasmas, fluids, and related interdisciplinary topics》 |2003年第2期|共1页
作者
Fibich G.; Ren WQ.; Wang XP.;
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正文语种 eng
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Nonlinear schrodinger-equation; Dispersive media; Multiple filamentation; Ultrashort pulses; Singular problems; Time dispersion; Dimensions; Vectorial; Collapse; Beam;

机译：非线性薛定inger方程;色散介质;多丝状;超短脉冲;奇异问题;时间色散;尺寸;矢量;折叠;光束;

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1. Numerical simulations of self-focusing of ultrafast laser pulses - art. no. 056603 [J] . Fibich G., Ren WQ., Wang XP. Physical review, E. Statistical physics, plasmas, fluids, and related interdisciplinary topics . 2003,第5aPta2期

机译：超快激光脉冲自聚焦的数值模拟-艺术没有。 056603
2. Ionization of many-electron atoms by ultrafast laser pulses with peak intensities greater than 10(19) W/cm(2) - art. no. 065403 [J] . Yamakawa K., Akahane Y., Fukuda Y., Physical Review, A. Atomic, molecular, and optical physics . 2003,第6期

机译：峰值强度大于10（19）W / cm（2）的超快激光脉冲电离多电子原子-art。没有。 065403
3. Femtosecond-scale response of GaAs to ultrafast laser pulses - art. no. 081202 [J] . Dumitrica T., Allen RE. Physical Review, B. Condensed Matter . 2002,第8期

机译：GaAs对超快激光脉冲的飞秒级响应-艺术没有。 081202
4. Comparison of numerical simulations with experimental results of the atmospheric self-focusing propagation of femtosecond laser pulses [C] . Luk, T.S., Bennett, . 2002

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5. Numerical simulation of laser ablation in pulsed laser deposition process. [D] . Wei, Zhaohui. 1997

机译：脉冲激光沉积过程中激光烧蚀的数值模拟。
6. Numerical Simulation on Pulsed Laser Ablation of the Single-Crystal Superalloy Considering Material Moving Front and Effect of Comprehensive Heat Dissipation [O] . Bin Wang, Yihui Huang, Junke Jiao, 2021

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7. Numerical simulations of self-focusing of ultrafast laser pulses [O] . Gadi Fibich, Weiqing Ren, Xiao-Ping Wang 2003

机译：超快激光脉冲自聚焦的数值模拟

Numerical simulations of self-focusing of ultrafast laser pulses - art. no. 056603

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