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斜程大气传输激光束的平均光强与短期光束扩展 被引量:16

Average intensity and short-term beam spread of a laser beam propagating in a slant-path atmosphere
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摘要 基于广义惠更斯-菲涅耳原理、修正von Karman湍谱、贝塞耳权重函数的高斯函数近似和误差小于4%的波结构函数平方近似,研究得出了包含湍流尺度影响的湍流大气中传输高斯光束的平均光强新关系和包含湍流外尺度影响的光束短期扩展因子。研究了高斯光束等效半径与传输距离、初始光束束径和光波波长间的关系,结果表明,在给定折射率结构参量和传输距离情况下,存在极小短期光束扩展对应的特征初始束径和特征光波波长。 Based on the extended Huygens-Fresnel principle, the modified von Karman spectrum for refractive-index fluctuations ,Gaussian approximation for the product of Gaussian function with Bessel function and a quadratic approximation of the structure function of wave, within an error ≤4%, new expressions are derived for the mean irradiance and the short-term beam spread of a Gaussian beam propagating in slant path turbulent atmosphere which include the effects of atmosphere- turbulence scale. The effective radius of the Gaussian beam depending on the beam propagation distance, initial beam size and wavelength are studied. The results show that the short-term beam spread has a distinctive minimum at a certain optimum initial beam size, when the beam propagation length, the refractive index structure parameter and the wavelength of optical beam are given.
作者 张逸新 王高刚
机构地区 江南大学理学院 江南大学通信与控制工程学院
出处 《红外与激光工程》 EI CSCD 北大核心 2007年第2期167-170,218,共5页 Infrared and Laser Engineering
关键词 大气湍流 激光 平均光强 光束扩展 湍流尺度 Atmospheric turbulence Laser Average intensity Beam spread Turbulent scale
分类号 TN929.12 [电子电信—通信与信息系统] P427.1 [天文地球—大气科学及气象学]
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参考文献16

  • 1FEIZULIN Z I,KRAVTSOV Y A.Broadening of a laser beam in a turbulent medium[J].Radiophys Quantum Electro,1967,10:33-35.
  • 2WANG S C H,PLONUS M A.Optical beam propagation for a partially coherent source in the turbulent atmosphere[J].J Opt Soc Am,1979,69:1297-1304.
  • 3ANDREWS L C,MILLER W B,Ricklin J C.Spatial coherence of a Gaussian-beam wave in weak and strong optical turbulence[J].J Opt Soc Am A,1994,11(5):1653-1660.
  • 4Andrews L C,Phillips R L,Hopen C Y.Laser Beam Scintillation with Applications[M].Washington USA:SPIE Press,2001.
  • 5YURE H T.Short-term average optical-beam spread in a turbulent medium[J].J Opt Soc Am,1973,63(5):567-572.
  • 6CHARNOTSKII M I.Short -exposure imaging and short-term laser beam spread in turbulent atmospbere[C]// Proceedings of SPIE,Propagation and Imaging through the Atmosphere,1997,3125:252-262.
  • 7CHARNOTSKII M I.Short-term laser beam spread in turbulent atmosphere[C] //Proceedings of SPIE,Atmospheric Propagation and Remote Sensing Ⅱ,1993,1968:389-400.
  • 8MASINO A J,YOUNG C Y,ANDREWS L,et al,Mean irradiance:experimental and theoretical results[C]// Proceedings of SPIE,Atmospheric Propagation Ⅱ,2005,5793:178-184.
  • 9LUTOMIRSKI R F,YURA H T.Propagation of a finite optical beam in an inhomogeneous medium[J].Appl Opt,1970,10(7):1652-1658.
  • 10YURA H T.Mutual coherence function of a finite cross section optical beam propagating in a turbulent medium[J].Appl Opt,1972,11(6):1399-1405.

同被引文献177

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红外与激光工程
2007年 第2期

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