湍流对飞秒激光脉冲沿 100 米空气路径传播时产生高强度光通道的影响

Pub Date : 2024-04-26 DOI:10.1134/S102485602370001X
D. V. Apeksimov, P. A. Babushkin, A. A. Zemlyanov, A. M. Kabanov, D. I. Kochetov, V. K. Oshlakov, A. V. Petrov, E. E. Khoroshaeva
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引用次数: 0

摘要

摘要-远程控制大气中的高强度激光束是大气光学的一个重要问题。它对大气探测具有特殊意义,因为湍流会影响光束的传播。我们通过实验研究了在激光辐射传播路径起始处产生的湍流层对丝化域特征的影响,以及直径为 2.5 厘米和 5 厘米的激光束产生高强度无等离子通道的情况,包括使用可变形镜对横向光束结构进行相位控制的情况。在存在湍流的情况下,多丝化域的起始点接近辐射源,但微不足道(路径长度的 10%)。更重要的是,在路径起始处形成的湍流层会导致激光束在非线性传播过程中高强度(平均强度为 1011-1012 W/cm2)光通道的数量成倍增加,从而在距离辐射源 100 米以上的地方诱发染料的双光子荧光,其信号水平足以通过激光雷达方案进行记录。这种激光束结构可用于探测天然和人为气溶胶。
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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The Effect of Turbulence on Generation of High-Intensity Light Channels during Femtosecond Laser Pulse Propagation along a 100-Meter Air Path

Remote control of high-intensity laser beams in the atmosphere is an important problem of atmospheric optics. It is of special interest for atmospheric sounding, where turbulence can affect beam propagation. We experimentally study the effect of a turbulent layer produced at the beginning of a laser radiation propagation path on the characteristics of the filamentation domain and generation of high-intensity plasma-free channels for laser beams 2.5 and 5 cm diameter, including under the phase control of the transverse beam structure with a deformable mirror. In the presence of turbulence, the beginning of multiple filamentation domain approaches, however, insignificantly (<10% of the path length), a radiation source. More important is that a turbulent layer formed at the beginning of a path results in a multiple increase in the number of high-intensity (mean intensity is ∼1011–1012 W/cm2) light channels in a laser beam during its nonlinear propagation, which induce two-photon fluorescence of dyes at a distance of longer than 100 m from the radiation source with the signal level sufficient for its recording by a lidar scheme. This laser beam structure can be used for sounding natural and anthropogenic aerosols.

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