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激光大气传输光波相位不连续性问题研究进展

葛筱璐 冯晓星 范承玉

引用本文:
Citation:

激光大气传输光波相位不连续性问题研究进展

    作者简介: 葛筱璐(1979- ),女,硕士,讲师,主要从事激光大气传输及自适应光学相位校正方面的研究.E-mail:xlge@sdut.edu.cn.
  • 基金项目:

    中国科学院大气成分与光学重点实验室开放课题基金资助项目(JJ-10-03)

  • 中图分类号: TN929.12;P425.2

Progress of the study of phase discontinuity of laser propagation through atmosphere

  • CLC number: TN929.12;P425.2

  • 摘要: 激光在大气中长距离传输时,即使湍流很弱也会产生强湍流效应。在强湍流效应中,一个重要的问题就是光波的相位不再是连续的,相位不连续性问题会引起现有的自适应光学校正能力的降低。介绍了相位不连续点产生的机理和基本性质,阐述了激光大气传输相位不连续性问题近年来的研究进展,为激光大气传输及自适应光学校正技术研究工作的更好开展提供了参考。
  • [1]

    le BIGOT E O,WILD W J,KIBBLEWHITE E J.Reconstruction of discontinuous light-phase functions[J].Optics Letters,1998,23(1):10-12.
    [2]

    NYE J F,BERRY M V.Dislocations in wave trains[J].Procesdings of the Royal Society,1974,A336:165-190.
    [3]

    FREUND I,SHVARTSMAN N.Wave-field phase singulartties:the sign principle[J].Physics Review,1994,AS0(6):5164-5172.
    [4]

    WRIGHT F J.Wavefront dislocations and their analysis using catastrophe theory,structural stability in physics[M].Berlin:Springer,1979:141-147.
    [5]

    NYE J F.The motion and structure of dislocations in wavefronts[J].Proceedings of the Royal Society,1981,A378:219-239.
    [6]

    BERRY M.Singularities in wave and rays,physics of defects[M].Amsterdam,Holland:North-Holland Publishing Company,1981:456-541.
    [7]

    FRIED D L,VAUGHN J L.Branch cuts in the phase function[J].Applied Optics,1992,31 (15):2865-2882.
    [8]

    VOITSEKHOVICH V V,KOUZNETSOV D,MOROZOV D K.Density of turbulence-induced phase dislocations[J].Applied Optics,1998,37(21):4525-4535.
    [9]

    FAN Ch Y.The study of phaes discontinuity of laser propagation through atmosphere and correction[D].Hefei:Anhui Institute of Optics and Fine Mechanics,Chinese Acsdemy of Sciences,2003:46-56(in Chinese).
    [10]

    YUAN K E,ZHU W Y,RAO R Zh.Density of phase branch points for a light wave propagation in atmospheric turbulence[J].Acta Photonica Sinica,2009,38(2):410-413(in Chinese).
    [11]

    GE X L,FAN Ch Y,WANG Y J.Numerical computation of the character of branch points' temporal and spatial variation in laser propagation through atmosphere[J].High Power Laser and Particle Beams,2006,18(7):1066-1070(in Chinese).
    [12]

    GE X L,FAN Ch Y.Relationship between the number of branch points and the characteristic parameters of turbulence effect[J].Journal of Atmospheric and Environmental Optics,2007,2(1):28-31 (in Chinese).
    [13]

    GE X L,FAN Ch Y,WANG Y J.Numerical computation of branch points number's behavior with turbulence strength in laser propagation through atmosphere[J].Acta Optics Sinica,2008,28(1):1-6 (in Chinese).
    [14]

    RAO R Zh.Statistics of the fractal structurs and phase singularity of a plane light wave propagation in atmospheric turbulence[J].Applied Optics,2008,47(2):269-276.
    [15]

    RAO R Zh.Optical vortices and its propagation in the atmosphere[J].Infrared and Laser Engineering,2009,38(4):609-615 (in Chinese).
    [16]

    FRIED D L.Branch point problem in adaptive optics[J].Journal of the Optical Society of America,1998,A15(10):2759-2768.
    [17]

    LI Y K.Branch point effect on adaptive correction[J].Proceedings of SPIE,2004,5490:1064-1070.
    [18]

    ROGGEMANN M C,KOIVUNEN A C.Bnrach-point reconstruction in laser beam projection through turbulence with finite-degree-freedom phase-only wave-front correction[J].Journal of the Optical Society of America,2000,A17 (1):53-62.
    [19]

    ROGGEMANN M C,KOIVUNEN A C.Wave-front sensing and deformable-mirror control in strong scintillation[J].Journal of the Optical Snsiety of America,2000,Al7(5):911-919.
    [20]

    FAN Ch Y,WANG Y J,GONG Zh B.Effect of branch points on adaptive optics[J].High Power Laser and Particle Beams,2003,15(5):435-438(in Chinese).
    [21]

    FAN Ch Y,WANG Y J,GONG Zh B.Compensation of adaptive optics for different wavelength of beacon in strong scintillation[J].Acta Optica Sinica,2003,23 (11):1489-1492(in Chinese).
    [22]

    FAN Ch Y,WANG Y J,GONG Zh B.Effects of different beacom wavelengths on atmospheric compensation in strong scintillation[J].Applied Optics,2004,43 (22):4334-4338.
    [23]

    GHIGLIA D C,PBITT M D.Two-dimensional phase unwrapping:theory,algorithms and software[M].New York,USA:Wiley Interscience,1998:121-130.
    [24]

    FAN Ch Y,WANG Y J,GONG Zh B.Detection of branch-point in light phase[J].Acta Optica Sinica,2001,21 (11):1388-1391 (in Chinese).
    [25]

    TYLER G A.Reconstruction and assessment of the least-squares and slope discrepancy component of the phase[J].Journal of the Optical Society of America,2000,A17 (10):1828-1839.
    [26]

    AKSENOV V,TIKHOMIROVA O.Theory of singular phase neconstruction in speckle-field[J].Proceedings of SPIE,2001,4167:130-137.
    [27]

    BANAKH V A,FALITS A V.Comparison of phase reconstruction algorithms when branch points are present[J].Proceedings of SPIE,2003,4883:258-264.
    [28]

    PRINNERMAN C A,PRIVET R,HUMPHREYS R A,et al,Atmospheric-compensation expetiments in strong-scintillation conditions[J].Applied Optics,1995,34(12):2081-2088.
    [29]

    HE L P,WANG Y J,FAN Ch Y.Measurement of the phase distortion for a laser heam propagating through the atmosphere hy a lateral shear interferometer[J].Chinese Journal of Quantum Flectronics,2001,18 (sl):92-96 (in Chinese).
    [30]

    CHENG D J,FAN Ch Y,QIAO Ch H,et al.Detection of branchpoint in laser propagation through atmosphere[J].Journal of Atmospheric and Environmental Optics,2008,3(4):241-249(in Chinese).
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出版历程
  • 收稿日期:  2011-11-22
  • 录用日期:  2011-11-28
  • 刊出日期:  2012-07-25

激光大气传输光波相位不连续性问题研究进展

    作者简介: 葛筱璐(1979- ),女,硕士,讲师,主要从事激光大气传输及自适应光学相位校正方面的研究.E-mail:xlge@sdut.edu.cn
  • 1. 山东理工大学理学院, 淄博255049;
  • 2. 中国科学院安徽光学精密机械研究所大气成分与光学重点实验室, 合肥230031
基金项目:  中国科学院大气成分与光学重点实验室开放课题基金资助项目(JJ-10-03)

摘要: 激光在大气中长距离传输时,即使湍流很弱也会产生强湍流效应。在强湍流效应中,一个重要的问题就是光波的相位不再是连续的,相位不连续性问题会引起现有的自适应光学校正能力的降低。介绍了相位不连续点产生的机理和基本性质,阐述了激光大气传输相位不连续性问题近年来的研究进展,为激光大气传输及自适应光学校正技术研究工作的更好开展提供了参考。

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