Relativistic longitudinal self-compression of ultrashort time-domain hollow Gaussian pulses in plasma

Cao Xiaochao; Fang Feiyun; Wang Zhaoying; Lin Qiang

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Relativistic longitudinal self-compression of ultrashort time-domain hollow Gaussian pulses in plasma

机译：等离子体中超短时间域中高斯脉冲的相对论纵向自压缩

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摘要

We report a study on dynamical evolution of the ultrashort time-domain dark hollow Gaussian (TDHG) pulses beyond the slowly varying envelope approximation in homogenous plasma. Using the complex-source-point model, an analytical formula is proposed for describing TDHG pulses based on the oscillating electric dipoles, which is the exact solution of the Maxwells equations. The numerical simulations show the relativistic longitudinal self-compression (RSC) due to the relativistic mass variation of moving electrons. The influences of plasma oscillation frequency and collision effect on dynamics of the TDHG pulses in plasma have been considered. Furthermore, we analyze the evolution of instantaneous energy density of the TDHG pulses on axis as well as the off axis condition.

机译：我们举报了超超短时间暗空高斯（TDHG）脉冲的动态演化的研究，超出了均匀等离子体中缓慢变化的包络近似的脉冲。使用复杂源点模型，提出了一种基于振荡电偶极级的TDHG脉冲的分析公式，这是MaxWells方程的精确解。数值模拟由于移动电子的相对论质量变化而表示相对论的纵向自压缩（RSC）。考虑了等离子体振荡频率和碰撞影响对等离子体中TDHG脉冲动态的影响。此外，我们分析轴上的TDHG脉冲瞬时能量密度的演变以及截止轴状况。

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《The European physical journal, D. Atomic, molecular, and optical physics》 |2017年第10期|共6页
作者
Cao Xiaochao; Fang Feiyun; Wang Zhaoying; Lin Qiang;
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作者单位

Zhejiang Univ Inst Opt Dept Phys Hangzhou 310027 Zhejiang Peoples R China;

Zhejiang Univ Inst Opt Dept Phys Hangzhou 310027 Zhejiang Peoples R China;

Zhejiang Univ Inst Opt Dept Phys Hangzhou 310027 Zhejiang Peoples R China;

Zhejiang Univ Technol Coll Sci Ctr Opt &

Optoelect Res Hangzhou 310023 Zhejiang Peoples R China;

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正文语种 eng
中图分类分子物理学、原子物理学;光学;
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1. Relativistic longitudinal self-compression of ultrashort time-domain hollow Gaussian pulses in plasma [J] . Cao Xiaochao, Fang Feiyun, Wang Zhaoying, The European physical journal, D. Atomic, molecular, and optical physics . 2017,第10期

机译：等离子体中超短时间域中高斯脉冲的相对论纵向自压缩
2. Weakly relativistic and ponderomotive effects on self-focusing and self-compression of laser pulses in near critical plasmas [J] . Bokaei B., Niknam A. R. Physics of plasmas . 2014,第10期

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3. Dynamics of dark hollow Gaussian laser pulses in relativistic plasma [J] . A. Sharma, S. Misra, S. K. Mishra, PHYSICAL REVIEW E . 2013,第6期

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5. Temporal propagation characteristics of ultrashort space-time Gaussian pulses in a laser satellite communication system. [D] . Kelly, Deborah Eliza Tjin Tham Sjin. 1998

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Relativistic longitudinal self-compression of ultrashort time-domain hollow Gaussian pulses in plasma

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