高能激光短距离传输光束质量测量仿真与实验研究  被引量：1

作　　者：李杨 刘磊 王钢[1] 王文涛 唐晓军[1] LI Yang;LIU Lei;WANG Gang;WANG Wentao;TANG Xiaojun(China Electronics Technology Group Eleventh Research Institute,Beijing 100015,China;School of Optoelectronics,Beijing Institute of Technology,Beijing 100081,China)

机构地区：[1]华北光电技术研究所,北京100015 [2]北京理工大学光电学院,北京100081

出　　处：《红外与激光工程》2024年第9期294-302,共9页Infrared and Laser Engineering

摘　　要：准确测量光束质量对于高能激光系统性能的评估至关重要,相比传统的远距离传输测量后再修正的方法,短距离传输后的光束质量更接近激光系统出口处的真实情况。建立激光短距离传输模型,采用多层相位屏法,分析空气湍流等因素对激光远场光斑形态和光束质量的影响。结果表明,在20 m的较短传输路径上,风速、空气相对湿度、功率等影响热晕效应的因素对光束质量影响较小,常规条件范围内,光束质量因子β值劣化不超过15%,而空气湍流效应对高能激光光束质量的影响较明显,随着空气湍流强度C_(n)^(2)由1×10^(-18)m^(-2/3)增大到1×10^(-12)m^(-2/3),β值从1.0848增大至8.9933;湍流强度对不同口径激光光束的光束质量影响也不尽相同,口径越大,受湍流强度影响越大。文中搭建实物光路,使用700 mm口径平行光管进行验证,在C_(n)^(2)<1×10^(-14)m^(-2/3)的情况下,测得2.63,与模拟结果相符,实验中还发现,可以通过搅散空气的方法来减小湍流强度。实验结果表明:将空气湍流强度控制在1×10^(-14)m^(-2/3)以下,光束质量因子不小于3的高能激光系统光束质量测量偏差小于5%,为大口径激光系统出口光束质量测量提供一种解决方案。Objective Accurate measurement of beam quality is crucial to the evaluation of laser performance,and compared with the traditional method of measuring and then correcting after long-distance transmission,the beam quality after short-distance transmission is closer to the real situation at the export of the laser.When high-energy laser propagates in the air,as the power increases,the interaction with the air will also become more obvious,mainly reflected in atmospheric turbulence and thermal blooming effects,which will affect the distortion and expansion of the spot shape,leading to a decrease in beam quality.However,current simulations and experiments on high-power large-caliber laser transmission often involve long-distance transmission to obtain target power.After accounting for the effects of atmospheric turbulence and thermal blooming on the transmission path,they then deduce beam quality information for further evaluation.Due to the complexity and randomness of atmospheric turbulence and thermal blooming,as well as the inability to obtain real-time relevant parameters of each point on the transmission optical path,the deduction amount is much greater than the true value of the beam quality under poor atmospheric conditions,resulting in significant errors.Therefore,measuring beam quality directly at the system export,given the short transmission distance,is less affected by nonlinear effects such as atmospheric turbulence and thermal blooming,and thus produces more accurate results.Methods Firstly,the theories regarding the atmospheric turbulence effect and thermal blooming effect in short-distance transmission were elaborated.Then,we simplified the optical path diagram for measuring beam quality(Fig.1),and established a model simulation based on this optical path diagram,by changing different environmental factors and conducting simulation experiments.Using a parallel light tube with a diameter of 700 mm,at a distance of 20 m,a Charge Coupled Device(CCD)was used to receive the focused spot and calculate its

关 键 词：高能激光 光束质量测量 湍流效应 热晕效应 数值模拟 

分 类 号：O436[机械工程—光学工程]