Simulation and measurement of scattering laser energy distribution in extinctive chambers
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1.
63892 Unit, Chinese People's Liberation Army, Luoyang 471000, China;
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2.
63893 Unit, Chinese People's Liberation Army, Luoyang 471000, China
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Received Date:
2011-04-17
Accepted Date:
2011-07-05
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Abstract
To simulate the scattering laser energy distribution of 1.06μm pulsed laser reflected multiple times by the inner wall of an extinctive chamber,after analyzing the laser scattering characteristics,a neural network superposition algorithm was put forward and the mathematical model for energy distribution was created.The laser energy distribution pattern under was simulated with 1J 1.06μm laser incident in the chamber.In some reflection area,the reflectance was high with maximal energy of 3.5×10-4J.Actual measurement and theoretical calculation were carried out respectively.Theoretical and measurement results were compared,the maximal and minimum relative error of actual and theoretical value was 10.7% and 1.3%,and both were in the consistent changing rule.All the results show the precision of model can meet the practical requirements of infield simulation tests.
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References
|
[1]
|
LI H,ZHAO H P,FENG L.The influence of laser extinctive chamber extinction performance on laser reconnaissance and warning radiation simulation test[J].Laser & Infrared,2006,36 (8):684-685 (in Chinese). |
|
[2]
|
LI Sh G,NIE J S,LI H.Assessment of effectiveness on angle deceptive jamming to semi-active laser-guided weapon[J].Infrared and Laser Engineering,2011,40(1):41-44(in Chinese). |
|
[3]
|
YE Sh L,ZHU Sh L,SUN Q B.Research on atmosphere-scattering influence on laser-angle-cheating jam[J].Laser & Infrared,2009,39(12):1306-1308(in Chinese). |
|
[4]
|
LIU Z X,LI X J,FAN X J.Measurement technology study of laser target reflection characteristic[J].Electro-optic Technology Application,2007,22(8):46-47(in Chinese). |
|
[5]
|
LIH,QIN Sh Q,HU X,et al.Analysis to the effects of Mie scattering in 1.06μm Laser simulation tests[J].Journal of National University of Defence Technology,2008,30(3):5-10 (in Chinese). |
|
[6]
|
SUN Y F,YE J S,HAO Y J.Research on counter-laser-guided bomb on artillery field[J].Infrared and Laser Enginecring,2007,36(sl):464-467 (in Chinese). |
|
[7]
|
LIU K X,XU G R,WU Zh S,et al.Measurement and analysis of the outfield target' s laser scattering characteristics[J].Chinese Journal of Lasers,2006,33(2):206-208(in Chinese). |
|
[8]
|
ZHANG L H,YANG Y,ZANG H G,et al.Reflective characteristics of target in laser rangefinder[J].Chinese Journal of Lasers,2008,33(7):1001-1003(in Chinese). |
|
[9]
|
WANG K B.Latest development and trends of semi-active laser guidance technology[J].Infrared and Laser Engineering,2008,37 (s1):275-279(in Chinese). |
|
[10]
|
TONG Zh Ch,SUN X Q.Effective simulation on passive jam of laser-guiding-bomb[J].Infrared and Laser Engineering,2008,37(1):82-85 (in Chinese). |
|
[11]
|
ZHANG Ch Q.Development trends of electro-optical countermeasure technology[J].Laser Technology,2006,30 (3):238-239 (in Chinese). |
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