Dynamics of femtosecond synthesized coronary profile laser beams filamentation in air

arXiv: Optics Pub Date : 2020-12-17 DOI:10.1088/2040-8986/ac1fc3

Y. Geints, A. Zemlyanov

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引用次数: 9

Abstract

Multiple filamentation in air of high-power ultrashort laser radiation with transverse intensity profile resembling a "corona" composed by incoherent combining of several annularly distributed independent top-hat sub-beams is theoretically studied. Through the numerical solution of time-averaged nonlinear Schrodinger equation, we study the spatio-angular dynamics of synthesized near-infrared "corona-beam" (CB) along the optical path by varying the number and power of the beamlets (corona-spikes). For the first time to our knowledge, the evident advances in the multiple filamentation region manipulating of synthesized CB are demonstrated. Particularly, by adjusting the number and aperture of the constituting sub-beams it makes possible to significantly delay the CB filamentation onset distance and increase the filamentation length in air. In addition, at the post-filamentation stage of femtosecond pulse propagation under certain conditions the synthesized corona-beams exhibit significantly lower angular divergence of its most intense part (post-filamentation light channel) compared to the beams with regular uni-modal intensity profiles (Gaussian, plateau-like) that provides enhancing of laser power delivered to the receiver over the atmospheric links.

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飞秒合成冠状激光束在空气中的成丝动力学

本文从理论上研究了由几个环形分布的独立顶帽子光束非相干组合而成的具有类似“日冕”的横向强度分布的高功率超短激光辐射在空气中的多重灯丝现象。通过时间平均非线性薛定谔方程的数值解，研究了合成近红外“日冕光束”(CB)沿光路的空间-角动力学。在我们所知的范围内，第一次证明了合成黑炭黑在多丝区操纵方面的明显进展。特别是，通过调整构成子波束的数量和孔径，可以显著延迟CB成丝的起始距离，并增加空气中的成丝长度。此外，在飞秒脉冲传播的成丝后阶段，在某些条件下，合成的日冕光束在其最强烈部分(成丝后光通道)的角散度明显低于具有规则单模态强度分布(高斯，高原状)的光束，从而增强了通过大气链路传递给接收器的激光功率。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv: Optics

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