[1] 刘泽龙,郭建广. 几种燃烧型有机类干扰烟幕的红外干扰性能比较[J].红外技术, 2006, 28(2): 116-119. LIU Z L, GUO J G. Infrared jamming performance comparison of several combustion organic jamming smoke screens[J]. Infrared Technology, 2006, 28(2): 116-119.(in Chinese) [2] 薛鹏,董文锋,罗威. 烟幕对光电制导目标识别能力干扰效果研究[J].激光与红外,2018,48(3):375-378. XU P,DONG W F,LUO W. Research on the jamming effects of smoke screen on target identification capability of photoelectric guidance [J]. Laser & Infrared,2018, 48(3):375-378.(in Chinese) [3] 张洪斌, 苏五星, 张祥军,等. 激光无源干扰技术及其研究[J].红外, 2005(7):13-17. ZHANG H B,SU W X,ZHANG X J,et al. Laser passive jamming technology and its research[J]. Infrared, 2005(7):13-17.(in Chinese) [4] 张敬慧.基于Mie激光无源干扰技术及其研究射理论的烟幕特性测量研究[J]. 舰船电子工程, 2019,39(4):134-137. ZHANG J H. Study on measurement of smoke screen characteristics based on Mie scattering theory[J]. Ship Electronic Engineering, 2019,39(4):134-137.(in Chinese) [5] 李毅.非球形微粒及其形成烟幕的消光机理研究[D].南京:南京理工大学,2001. LI Y. Study on extinction mechanism of non-spherical particles and smoke screen formation[D].Nanjing: Nanjing University of Science and Technology,2001.(in Chinese) [6] BRAGA F L,RIBEIRO M S. Diffusion limited aggregation: algorithm optimization revisited[J]. Computer Physics Communications, 2011,182:1602-1605. [7] SANDER L M.Diffusion-limited aggregation: a kinetic critical phenomenon[J].Physical Review Letters, 1981, 47(19):1400-1403. [8] JULLIEN R. Aggregation phenomena and fractal aggregates[J]. Contemporary Physics, 1987,28(5):477-493. [9] LI J Y, LU B, WU Z S. The statistical average of optical properties for alumina particle cluster in aircraft plume[J]. Journal of Quantitative Spectroscopy & Radiative Transfer, 2018,209:164-170.
[10] 类成新,张化福,刘汉法.随机分布烟尘簇团粒子缪勒矩阵的数值计算[J].物理学报, 2009,58(10):7169-7174. LEI C X,ZHANG H F,LIU H F. Numerical calculation of Mueller matrix of randomly distributed dust cluster particles [J]. Acta Physica Sinica, 2009, 58(10):7169-7174. (in Chinese) [11] 王玄玉.雾油与石墨组合烟幕对10.6 μm激光的衰减特性[J].红外与激光工程,2011,40(9):1707-1709. WANG X Y. Extinction performance of oil fog smoke combined with superfine graphite to 10.6 μm emission[J]. Infrared and Laser Engineering, 2011, 40(9):1707-1709.(in Chinese) [12] 白林,李宁,郭永利.铜粉烟幕的消光特性及其红外遮蔽效果对比试验[J]. 舰船电子工程, 2009,29(5):161-163. BAI L,LI N,GUO Y L. Extinction characteristic of the copper powder smoke screen and the comparative trial of the infrared[J]. Ship Electronic Engineering, 2009,29(5):161-163.(in Chinese) [13] 王红霞,刘代志,宋子彪.纳米石墨烟幕对红外激光的消光特性研究[J]. 激光与红外, 2007,37(3):263-265. WANG H X,LIU D Z,SONG Z B.Study on extinction characteristic of nano-graphite smoke screen to infrared laser[J]. Laser & Infrared, 2007,37(3):263-265.(in Chinese) [14] 王玄玉, 潘功配.红磷烟幕使用特性及其对红外激光的最佳消光直径[J]. 兵工学报, 2007,28(9):1139-1143. WANG X Y,PAN G P.Red phosphorus smoke usage characteristic and optimal extinction diameter to missions of infrared laser[J]. Acta Armamentarri,2007,28(9):1139-1143.(in Chinese) [15] 冯长根,乔小晶,李旺昌. 烟幕弹药研究进展[J]. 科技导报, 2014,32(4/5):110-115. FENG C G,QIAO X J,LI W C.Research progress in smoke bombs[J]. Science & Technology Review, 2014,32(4/5):110-115.(in Chinese) [16] 刘禹廷,张倩, 姚强,等. 烟幕干扰技术研究进展[J].飞航导弹, 2018(2):77-81. LIU Y T,ZHANG Q, YAO Q, et al. Progress in smoke screen jamming technology[J].Winged Missiles Journal, 2018(2):77-81. (in Chinese) [17] 王玄玉.烟幕对10.6 μm激光的衰减规律及应用计算研究[D]. 南京:南京理工大学,2007. WANG X Y. Attenuation and applied calculation of smoke to 10.6 μm laser emission[D].Nanjing: Nanjing University of Science and Technology,2007.(in Chinese) [18] LI J Y, LU B, WU Z S. Scattering properties of alumina particle clusters with different radius of monomers in aerocraft plume[J].Journal of Quantitative Spectroscopy & Radiative Transfer, 2017,202:233-239. [19] 张青.火灾烟颗粒与非火灾干扰颗粒光散射特性的研究[D]. 合肥:合肥工业大学,2010. ZHANG Q. Study on the characteristics of light scattering for fire smoke and non-fire particles[D]. Hefei: Hefei University of Technology, 2010.(in Chinese) [20] MISHCHENKO M I, MARTIN P A. Peter Waterman and T-matrix methods[J]. Journal of Quantitative Spectroscopy & Radiative Transfer, 2013,123:2-7. [21] MACKOWSKI D W, MISHCHENKO M I. A multiple sphere T-matrix Fortran code for use on parallel computer clusters[J]. Journal of Quantitative Spectroscopy & Radiative Transfer, 2011,112:2182-92. [22] MISHCHENKO M I, TRAVIS L D.Scattering, absorption, and emission of light by small particles [M].New York,NY,US: Cambridge University Press, 2002. [23] DRAINE B T, GOODMAN J J. Beyond Clausius-Mossotti: wave propagation on a polarizable point lattice and the discrete dipole approximation[J]. The Astrophysical Journal,1993,405:685-697.
第41卷第5期2020 年5月 兵工学报ACTA ARMAMENTARII Vol.41No.5May2020
|