不同散射介质对飞秒脉冲激光传输特性影响研究  被引量：8

作　　者：张克瑾 刘磊 曾庆伟 高太长[1] 胡帅 陈鸣 Zhang Ke -Jin;Liu Lei;Zeng Qing -Wei;Gao Tai -Chang;Hu Shuai;Chen Ming(College of Meteorology and Oceanography, National University of Defense Technology, Nanjing 211101, China)

机构地区：[1]国防科技大学气象海洋学院

出　　处：《物理学报》2019年第19期138-144,共7页Acta Physica Sinica

摘　　要：基于分层传输模型和 Mie 散射理论,在粒子散射模型中充分考虑了谱分布特征,数值模拟了 800 nm 飞秒激光在冰云、水云、雾、气溶胶和降雨环境中的传输特性.结果表明,谱分布和粒子相态对光丝传输特性有较大的影响.雨滴的粒径较大,光丝在降雨环境中传输时,由于散射导致的能量衰减最强,产生的光丝峰值光强和能量最低.同时,光丝能量在空间的分布不均,产生了明显的多丝结构,并导致光丝长度缩短.水云和雾具有类似的谱分布特征,光丝在水云和雾中的传输特性十分相似.但由于雾中的粒子尺度更小,光丝的能量较高,光丝分布更集中.气溶胶对光丝的散射最弱,因此在传输前期没有对光丝的结构产生影响,并以稳定的单丝结构传输,光丝的峰值光强和能量最高,但在距离成丝位置一段距离后光丝结构才逐渐出现扰动.相同谱分布下,由于冰粒子的散射能力强于水粒子,造成光丝在冰云中的能量更低,光丝分布不集中,光丝的数量明显增多.During recent years, the filamentation of femtosecond laser in the atmosphere has contributed considerable interest to researchers. However, the actual atmosphere can result in different scattering medium, which are adverse to the application of filamentation in the atmosphere. In order to study the propagation of femtosecond laser in real scattering medium, the propagation of 800 nm femtosecond laser in ice cloud, water cloud, fog, aerosol and rainfall is simulated numerically. Combined with the theory of stratified medium model and Mie scattering theory, we constructed a scattering model with a changeable size distribution function in the nonlinear laser model. The results indicated that the different size distribution and phase state of particles have different influence on the propagation properties of the filaments. As the rainfall was dominated by large raindrops, the scattering on filament was the strongest, resulting in the lowest peak intensity and energy. In the case, the distribution of filament energy was extremely inhomogeneous, causing the shortest length of filament and generation of multi-filament. In the image of fluence distribution, a diffraction ring can be observed clearly in the rainfall but was blurred in other medium. The propagation properties of filaments in water cloud and fog were similar because of the same size distribution. However, due to the size of particle in fog was smaller than that in water cloud, the filaments had more higher energy and more concentrated distribution in fog. In addition, the scattering of ice particles was stronger than that of liquid droplets, so the energy of filament in ice cloud was lower than that in water cloud, resulting a reducing of the length and number of filaments in ice cloud. The size of aerosols was the smallest, which had the weakest influence on the filament. Accordingly, in the early of propagation, there had little perturbance on the filament and the beam was transmitting with a stable single filament, and results in the highest peak inten

关 键 词：飞秒激光 成丝 谱分布 散射介质 

分 类 号：TN24[电子电信—物理电子学]