海洋湍流中光波特征参量和短期光束扩展的研究  被引量：4

作　　者：吴彤 季小玲[1] 李晓庆[1] 王欢[1] 邓宇 丁洲林 Wu Tong;Ji Xiao-Ling;Li Xiao-Qing;Wang Huan;Deng Yu;Ding Zhou-Lin(College of Physics and Electronic Engineering,Sichuan Normal University,Chengdu 610068,China)

机构地区：[1]四川师范大学物理与电子工程学院,成都610068

出　　处：《物理学报》2018年第22期263-271,共9页Acta Physica Sinica

基　　金：国家自然科学基金(批准号:61475105;61775152;61505130)资助的课题~~

摘　　要：Nikishov等建立的海洋湍流功率谱模型中,假设了海水有着稳定的分层.但是,实际海水通常不是稳定分层的,温度与盐度的涡流扩散率是不相等的. 2017年, Elamassie等建立了考虑这些因素的更合理的海洋湍流功率谱模型.湍流介质中光波空间相干长度等基本特征参量在表征湍流强度和光传输相位校正技术等方面起着重要作用.本文基于Elamassie海洋湍流功率谱模型,重新推导出了海洋湍流中光波结构函数、光波空间相干长度和Fried参数的解析公式,并校验了所得公式的正确性.研究发现:当温度变化引起的光学湍流占主导地位时, Nikishov海洋湍流功率谱模型把湍流强度低估了;当盐度变化引起的光学湍流占主导地位时,Nikishov海洋湍流功率谱模型把湍流强度高估了.基于Elamassie海洋湍流功率谱模型,本文推导出了高斯光束短期光束扩展的半解析公式,并验证了其正确性.研究还表明:海水稳定分层与否,短期光束扩展差异很大.本文研究结果对水下湍流环境中的光通信、成像和传感等应用具有重要意义.In 2000, Nikishov et al. presented an analytical model for the power spectrum of oceanic turbulence, in which the stable stratification of seawater is assumed, i.e., the eddy diffusivity of temperature is equal to that of salinity, and the eddy diffusivity ratio is equal to unity. Until now, all previous studies on the light propagation through oceanic turbulence were based on the Nikishov＇s power spectrum model. However, the eddy diffusivity of temperature and eddy diffusivity of salt are different from each other in most of underwater environments. Very recently, Elamassie et al. established a more reasonable power spectrum model of underwater turbulent fluctuations as an explicit function of eddy diffusivity ratio. The characteristic parameters such as the spatial coherence length of optical wave in turbulent medium play an important role in characterizing the strength of turbulence, the phase correction techniques in light propagation, etc.In the present paper, based on the Elamassie＇s power spectrum model of oceanic turbulence, the analytical formulae of the wave structure function, the spatial coherence length of optical wave and the Fried parameter in oceanic turbulence are derived, and the correctness of each of these formulae is verified. It is shown numerically that the results obtained by using the Elamassie＇s power spectrum model are quite different from those obtained by using the Nikishov＇s power spectrum model. If the Nikishov＇s power spectrum model is adopted, the strength of turbulence is underestimated when oceanic turbulence is dominated by the temperature fluctuations, while the strength of turbulence is overestimated when oceanic turbulence is dominated by the salinity fluctuations. If the Elamassie＇s power spectrum model is adopted, it is shown that the Kolmogorov five-thirds power law of the wave structure function is also valid for oceanic turbulence in the inertial range, and 2.1 times the spatial coherence length of optical wave is the Fried parameter, which are in agreement

关 键 词：海洋湍流 波结构函数 空间相干长度和Fried参数 短期光束扩展 

分 类 号：O357.5[理学—流体力学]