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YANG Hai-lin, NIU Yan-xiong, SHEN Xue-ju, WU Dong-sheng, ZHANG Peng, JIANG Nan. Simulation of effect of smoke screen interference on laser[J]. LASER TECHNOLOGY, 2008, 32(5): 513-516.
Citation: YANG Hai-lin, NIU Yan-xiong, SHEN Xue-ju, WU Dong-sheng, ZHANG Peng, JIANG Nan. Simulation of effect of smoke screen interference on laser[J]. LASER TECHNOLOGY, 2008, 32(5): 513-516.
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Simulation of effect of smoke screen interference on laser

  • 1.

    Department of Optics & Electrical Engineering, Ordnance Engineering College, Shijiazhuang 050003, China;

  • 2.

    Key Laboratory of Precision Instrument and Testing Technology of Nation, Tsinghua University, Beijing 100084, China;

  • 3.

    75150 Unit of the Chinese People's Liberation Army, Hengyang 421131, China

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  • Received Date: July 15, 2007
  • Revised Date: October 07, 2007
  • Published Date: October 24, 2008
    Graphical Abstract
    • Abstract
  • By means of the approximate Vander Hulst numeration method,based on Bouguer-Lamber law,the effect of the smoke screens with different particles on the interference of different wavelength lasers was calculated.Numeric simulation indicated there was an optimum smoke particle parameter for a certain laser wavelength in order to obtain the best laser interference results.The study is valuable for both the evaluation and efficient interference on laser guidance weapon.
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    • References (12)
  • [1]
    LI M,FAN D Q,YIN Ch Y.Study on corresponding relation of laser and infrared transmittivity for smoke screen[J].Journal of Infrared and Millimeter Waves,2006,25(2):127-130(in Chinese).
    [2]
    HU J,YANG Z K,YANG D Q.Smoke particles' recognition andMonte Carlo simulation of laser scattering characters[J].Chinese Journal of Lasers,2002,29(10):950-954(in Chinese).
    [3]
    QIU J J,MEI J T.Interference of the smokescreen confronting infrared guided weapons[J].Infrared and Laser Engineering,2006,35(2):212-215(in Chinese).
    [4]
    GE Q Sh,ZHANG L J,GE Q L.Mechanism study of smoke concealment interfering air-raid of laser-guided weapon[J].Journal of PLA University of Science and Technology,2005,6(2):149-152(in Chinese).
    [5]
    SONG D M,LIU Sh M,WANG N Y,et al.Study on the effect ofmaterials granularity on infrared extinction capability of smoke screen[J].Initators Pyrotechnics,2005,2:6-9(in Chinese).
    [6]
    LIU G R,HUANG Sh X,HU F,et al.IR extinction effect of red phosphorous smoke screen[J].Chinese Journal of Applied Chemistry,2005,22(7):709-714(in Chinese).
    [7]
    WANG X Y,PAN G P.Study and test of extinction coefficient of red phosphorus smoke to 10.6μm laser emission[J].Infrared and Laser Engineering,2005,34(6):636-640(in Chinese).
    [8]
    WANG X Y,PAN G P.Study of the extinction ability of several kinds of smoke screen to CO2 laser emission[J].Laser Infrared,2006,36(2):144-146(in Chines).
    [9]
    ZHONG Zh N.Numerical simulation of the extinction of smoke screen[J].Electro-Optics Passive Countermeasures,1999,1:14-19(in Chinese).
    [10]
    YAO L J,GAO J L,XIAO K T,et al.Theory and testing technique of smoke[M].Beijing:National Defence Industry Press,2004:38-40,51-56(in Chinese).
    [11]
    LI Sh X.Electro-optical countermeasure technology[M].Changsha:National Defence Industry Press,2000:153-156(in Chinese).
    [12]
    GAO J M,LING Y Sh,SHI J M,et al.Quantitative analyzed and investigated of extinction parameter with the smoke screen interfering[J].Electro-Optics Passive Countermeasures,1997,3:1-6(in Chinese).
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