脉冲激光近程定距系统设计理论及应用研究
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摘要
激光近程定距技术是提高武器目标毁伤效能的一项重要技术。激光因大功率、优质光束质量、强抗干扰能力,使得武器系统具有高命中率,因此在现代战争中正发挥着越来越重要的作用。激光近程定距技术正成为世界的研究热点。本文以常规弹药前置式激光近程定距系统为背景,以高速弹药(速度≥700m/s)为应用对象,通过理论分析和试验验证系统地研究了激光近程定距的主要关键技术。
在设计理论方面,本文首先对激光近程定距的四种作用体制进行了深入地研究,得出了不同体制的选用原则。对尾翼旋转弹前置式激光近程定距系统的摆动理论进行研究,得出摆动误差变化规律。对脉冲半导体激光器(laser diode,LD)发射系统模型、激光目标反射特性、激光接收系统与信号处理系统进行了深入理论分析。对超音速下弹头激波对前置式激光光束传输的光程影响建立了数学建模,并对中低马赫情况下的光程影响进行数值仿真和风洞试验分析研究。
在技术实现方面,本文对脉冲鉴相体制、基于FPGA的的高频计数器脉冲激光测距技术、窄脉宽大功率半导体脉冲激光(LD)电源技术和光学系统抗冲击技术进行了研究,设计了可满足常规弹药要求的激光近程定距控制电路和系统结构,并成功应用于系统样机的研制。针对与定距系统相关各类透明树脂材料的光学等特性进行深入研究,首次提出了使用PC树脂材料承受高过载的可靠性,并成功地试验证明其抗高过载强度≥45000g。对系统用镜片的镀膜工艺进行了深入研究,首次采用了PC树脂材料作为激光定距系统光学带通膜基片,并且合作成功实现了PC树脂的低温带通镀膜,达到设计应用需求。
最后,通过对激光近程定距系统原型样机的动态试验,获得了大量试验数据,对实验结果和数据进行了分析,对激光近程定距系统的研制具有较高的参考价值。
Laser short range fixed distance technology is very important in promoting theweapons target-injuring efficiency. Because of the high power, good quality of beam, andstrong anti-jamming capability, laser makes the weapon system having the high ratio inhitting the target, and plays more and more significant role in modern battle. Laser shortrange fixed distance technology is becoming the research hotspot around the world. Thisdissertation takes the general ammunition forward laser fixed distance as background andhigh speed ammunition as reseach object(velocity≥700m/s), the design rule and theimplementation technique of laser short range fixed distance system are systematicallyresearched.
In the sections of the design theories, four types of function mechanism of laserfixed distance are discussed so that the adoption criterion is put out. In the research onthe swing theory of pulsed laser system located on the head of empennage circumgyratebomb, the rules of swing error are gained; besides the sending system model of laserdiode, the reflect charteristic of object, the receiving system and the signal processingsystem are all anaysised deeply; and lightlength influent math model in laser beamtransmission is established for the warhead shockwave in supersound velocity, numericalvalue simulation is processed for the lightlength influence under the middle or lowvelocity, and verifying tests are anaysised in the wind tunnel.
In the sections of the technique implementation, the mechanism of pulse phaseidentification; the laser range finding technology of high frequcnce counter based onFPGA, the LD power technology of narrow pulse width high power, and anti-impacttechnology of the optical system are all researched, laser proximity fuze control circuitand fuze structure have been designed for general ammunition, fuze samples are applied.To kinds of colophony material, we reseached their optical and other characters, broughtforward firstly over-loading dependability of PC colophony material, and triumphantlytested verfying the over-loading dependability of PC≥45000g. Film-plating technics oflens are anaysised, and PC material is firstly used as the base patch for the system laserband-pass filter film, and the technics of PC colophony low temperature film plating iscollaborately successful, met the needs of designing applications.
At last, a series of dynamic shot experiment of system antitype sample are tested,lots of experimental data are acquired. Under the analysis of the test result and the data,high reference value is gained for the developing laser short range fixed distance system.
在设计理论方面,本文首先对激光近程定距的四种作用体制进行了深入地研究,得出了不同体制的选用原则。对尾翼旋转弹前置式激光近程定距系统的摆动理论进行研究,得出摆动误差变化规律。对脉冲半导体激光器(laser diode,LD)发射系统模型、激光目标反射特性、激光接收系统与信号处理系统进行了深入理论分析。对超音速下弹头激波对前置式激光光束传输的光程影响建立了数学建模,并对中低马赫情况下的光程影响进行数值仿真和风洞试验分析研究。
在技术实现方面,本文对脉冲鉴相体制、基于FPGA的的高频计数器脉冲激光测距技术、窄脉宽大功率半导体脉冲激光(LD)电源技术和光学系统抗冲击技术进行了研究,设计了可满足常规弹药要求的激光近程定距控制电路和系统结构,并成功应用于系统样机的研制。针对与定距系统相关各类透明树脂材料的光学等特性进行深入研究,首次提出了使用PC树脂材料承受高过载的可靠性,并成功地试验证明其抗高过载强度≥45000g。对系统用镜片的镀膜工艺进行了深入研究,首次采用了PC树脂材料作为激光定距系统光学带通膜基片,并且合作成功实现了PC树脂的低温带通镀膜,达到设计应用需求。
最后,通过对激光近程定距系统原型样机的动态试验,获得了大量试验数据,对实验结果和数据进行了分析,对激光近程定距系统的研制具有较高的参考价值。
Laser short range fixed distance technology is very important in promoting theweapons target-injuring efficiency. Because of the high power, good quality of beam, andstrong anti-jamming capability, laser makes the weapon system having the high ratio inhitting the target, and plays more and more significant role in modern battle. Laser shortrange fixed distance technology is becoming the research hotspot around the world. Thisdissertation takes the general ammunition forward laser fixed distance as background andhigh speed ammunition as reseach object(velocity≥700m/s), the design rule and theimplementation technique of laser short range fixed distance system are systematicallyresearched.
In the sections of the design theories, four types of function mechanism of laserfixed distance are discussed so that the adoption criterion is put out. In the research onthe swing theory of pulsed laser system located on the head of empennage circumgyratebomb, the rules of swing error are gained; besides the sending system model of laserdiode, the reflect charteristic of object, the receiving system and the signal processingsystem are all anaysised deeply; and lightlength influent math model in laser beamtransmission is established for the warhead shockwave in supersound velocity, numericalvalue simulation is processed for the lightlength influence under the middle or lowvelocity, and verifying tests are anaysised in the wind tunnel.
In the sections of the technique implementation, the mechanism of pulse phaseidentification; the laser range finding technology of high frequcnce counter based onFPGA, the LD power technology of narrow pulse width high power, and anti-impacttechnology of the optical system are all researched, laser proximity fuze control circuitand fuze structure have been designed for general ammunition, fuze samples are applied.To kinds of colophony material, we reseached their optical and other characters, broughtforward firstly over-loading dependability of PC colophony material, and triumphantlytested verfying the over-loading dependability of PC≥45000g. Film-plating technics oflens are anaysised, and PC material is firstly used as the base patch for the system laserband-pass filter film, and the technics of PC colophony low temperature film plating iscollaborately successful, met the needs of designing applications.
At last, a series of dynamic shot experiment of system antitype sample are tested,lots of experimental data are acquired. Under the analysis of the test result and the data,high reference value is gained for the developing laser short range fixed distance system.
引文
[1] 马宝华,网络技术时代的引信,中国兵工学会第十四届引信学术年会论文集,2005
[2] 纪铁刚,基于激光信息交联的穿甲弹用定距起爆控制技术研究,南京:南京理工大学博士论文,2005.6
[3] N.M.柯甘,雷达引信原理,北京:国防工业出版社,1998.8
[4] 孙全意,引信激光近程定距系统的体制、定距与识别技术研究,南京理工大学博士论文,2002.6
[5] 赵锋、张更宇,美军炮兵弹药配编特点及发展趋势,外军炮兵,2004年第11期
[6] 陈炳林,破甲弹一次激光定距技术研究,南京理工大学博士论文,2005.6
[7] 刘景萍,无线电引信干扰信号的研究及仿真,南京理工大学博士论文,2000.9
[8] 崔占忠、宋世和,近感引信原理,北京:北京理工大学出版社,1998.8
[9] 杨亦春,近程探测技术原理与应用,南京:南京理工大学出版社,1998.12
[10] 袁正,激光引信综述,航空兵器,1998.3
[11] 武器装备编写组著,中国教育开发网科技教育频道军事天地栏目
[12] 王茜,美国为MIA2“艾布拉姆斯”坦克研制新型制导弹药,央视国际2006-9-28
[13] Christian M. von der Lippe, ADVANCED OPTICAL FUZING TECHNOLOGY, ASC-2004
[14] 张乐,激光雷达发射和接收光学系统研究,国防科学技术大学硕士论文,2004.11
[15] 骏龙科技有限公司技术支持部著,使用Cyclone器件中的PLL
[16] H. o. Nyongesa, S. Kent, R. O Keefe. Genetic Programming fot Anti-Air Missile Proximity Fuze Delay-Time Algorithms. IEEE AES Systems Magazine, 2001: 41-45
[17] O'Malley: Kobi. Optically set fuze system. US Patent 5,247, 866. 1993
[18] 卢子兴,田常津等.聚氨酯泡沫塑料冲击力学性能的实验研究.高分子材料科学与工程.1995 11(6):76-81
[19] 卢子兴,田常津等.聚氨酯泡沫塑料在应力波加载下的压缩力学性能研究.爆炸与冲击.1995 15(4):382-388
[20] 高林奎、宋玮编,激光测距,北京:人民铁道出版社,1977.4
[21] 刘峰,脉冲半导体激光测距机的研制及应用,红外与激光工程,Vol.32.No.2,2003.4
[22] 袁正,激光引信综述,航空兵器,1998.3
[23] 朱尚明,激光三角法测距传感器的设计与实现,自动化仪表,Vol.19,No.12,1998.12
[24] 姜洪、李恩普、赵建林等,激光三角测距在测量路面时的计算和分析,西安公路交通大学学报,Vol.20,NO.2,2000.4
[25] 陈殿仁,激光目标识别与通信系统研究,中国科学院博士研究生学位论文.2000.4
[26] 赵建林、郝建华、王军等,激光三角测距的一种实验标定方法,西北工业大学学报,Vol.16,NO.3.1998.8.
[27] 孔有发,国外激光引信的现状及其发展,现代引信,1992.4
[28] 陈金浩,主动式激光引信原理简介,现代引信,1992.3
[29] 闵杰等,使用外弹道学,兵器工业部教材审编室,1986.7
[30] 冉黎林等一种空空导弹主动引信激光近程定距系统方案探讨航空兵器2002年第1期P11
[31] MAXIM数据产品手册,2002,2
[32] 冯建平,FPGA/CPLD应用系统设计与产品开发,北京:人民邮电出版社,2005.7
[33] 车念曾等,辐射学和光度学,北京理工大学出版社
[34] 黄润,表征漫反射体反射特性的一个重要物理量—双向反射分布函数,光学机械,1,1988,p17-22
[35] 魏庆龙,双向反射函数的绝对测量方法,光学学报,16(10)1996,p1425-1430
[36] 丁小白,激光雷达散射截面实验与理论研究,激光技术,18(3),1994,p172-177
[37] 张群兴等,目标反射特性对激光末制导精度的影响,火力与指挥控制,2004.2
[38] 王代智,激光末制导武器系统概论[M],合肥:炮兵学院出版社,1997,P97
[39] 钟宜兴,评定激光末制导炮弹射击效力的模型[J],弹道学报,1997(9)
[40] 李富铭,刘一先,光学测量[M],上海:科学技术文献出版社,1999
[41] 卜春彦等,大学物理学[M].长春:吉林大学出版社,1998
[42] 张彦梅,磁、激光复合探测技术研究,探测与控制学报,2004.12,P40-43.
[43] 齐鑫,光纤延时在脉冲体制引信激光近程定距系统中的应用研究,南京理工大学硕士论文,2000
[44] Thomas R. Harrison, Stockton, Clif. Proximity fuze. Washington. D. C. USP4859054. Aug. 22, 1989.
[45] Leland V. Gardner, Buellton, Calif. Optical fuze with improved range function. Washington, D. C. USP4310760. Jan. 12.1982.
[46] 卢春生,光电探测技术及应用.第1版.北京:机械工业出版社,1992
[47] 付有余,激光测距与跟踪系统低噪声电子设计方法.光学精密工程.2000 8(3):250-253
[48] 纪铁刚、张河、陈炳林,基于半主动激光技术的远程精确炸点控制,弹箭与制导学报.200424(3):278-280
[49] Ji tiegang, Zhang He, Ding libo, Chen binglin. Technology of rotating body data acquisition system based on wireless digital transmission module. 5th International Symposium on Test and Measurement, 2003 vol 1: 569-572
[50]. Leland V. Gardner, Buellton, Calif. Optical fuze with improved range function. Washington, D.C. USP4310760. Jan. 12.1982.
[51] 戴炳明,张雏,李东石.脉冲激光测距机的测距误差分析.激光技术.Vol23,No.1,1999.2
[52] 王伟、邓甲昊等,伪随机码在激光探测器中的应用.探测与控制学报.2004.12,P44-46
[53] 杨成伟,陈千颂,林彦,霍玉晶.脉冲激光测距时间间隔测量及误差分析.激光与红外.Vol.32,No.2,2003.4
[54] 朱相磊,脉冲-相位式激光测距仪的研究,山东科学,Vol.11,No.3,1998.9
[55] 李季、张毅、戚俊等,DDS技术在数字激光相位测距仪中的应用,量子电子学报,Vol.20 No.22003.4
[56] DALAS电子元器件产品手册,2002.6
[57] 潘琢金,施国君编著,C8051Fxxx高速SOC单片机原理及应用,北京:北京航空航天大学出版社,2002
[58] Texas Instruments Incorporated著,MS320VC55x系列DSP的CPU与外设,清华大学出版社,2005
[59] 邱永红等,基于软件通信体系结构的无线通信系统研究[J],系统工程与电子技术,2004,26(5),p621-623
[60] 桑会平等,基于现场可编程门阵列的脉冲激光引信高精度实时定距技术研究,探测与控制学报,2006.8,P19-23
[61] 张伟民、黄强等,基于激光与双目视觉的物理快速定位,探测与控制学报,2004.12,P84-87
[62] Altera, Altera Cyclone Data Sheet[Z], USA: Altera, 2003
[63] 丁立波,小口径空炸引信炸点控制技术研究,南京理工大学博士论文,2005.6
[64] 王昌明,实用弹道学,兵器工业出版社,1994.5
[65] 王保国等,气体动力学,北京理工大学出版社,2005 8
[66] 韩中忠、王敬、兰小平编,FLUENT:流体工程仿真计算实例与应用,北京理工大学出版社,2004
[67] Willmarth W W. Pressure Fluctuations beneath Turbulent Boundary Layer. Annual Reviews of Fluid Mechanics, Vol. 1975
[68] Chew L. et al. Experimental Investigation of Transitional Shear layer Optics. AIAA Journal, Vol. 31, No. 12, Dec. 1993
[69] Marcuse D. Light Transmission Optics. Van Nostrand Rein Hold Company New York 1982
[70] Schlichting H. Boundry-Layer Theory. New York, McGraw-Hill 1968
[71] Marcuse D. Theory of a Thermal Gradient Gas Lens, IEEE Trans. Microwave Theory and Techniques, MTT-13, No. 6, Nov. 1965
[72] Shen P I. Beam Tube Thermal Blooming Experiment and Analysis. AFWL TR-81-T129, 1981
[73] Valley G C. Thermal Blooming in Axial Pipe Flow. Applied Optics, Vol. 18. Aug. 1979
[74] 李桂春,气动光学,国防工业出版社,2006.1
[75] 童秉纲等,气体动力学,高等教育出版社,1990.5
[76] 张志涌等 精通MATLAB6.5版 北京航空航天大学出版社2003.3
[77] 李玉权,崔敏,光波导理论与技术,北京:人民邮电出版社,2002
[78] 赵策洲、高勇,半导体硅基材料及其光波导,北京:电子工业出版社,1997
[79] Harrison, U. S. Patent, Number: 4,859,054, Aug. 22,1989
[80] 向世明,倪国强,光电子成像器件原理,第1版,北京:国防工业出版社,1999
[81] BEWTRA N, SUDA D A, TAN G L, et al. Modeling of quantum well lasers with electro-opto-thermal interaction [J]. IEEE J Selected Topics in Quantum Electronics, 1995, 1(2): 331-339
[82] 卢春生,光电探测技术及应用,第1版,北京:机械工业出版社,1992
[83] NAGARAJANR, ISHIKAUAM, FUKUSHIMA T, et al. High speed quantum-well lasers and carrier transport effects. IEEE J Quantum Electronics, 1992, 28(10): 1990-2448.
[84] 国营红星机电厂编译,光学镜头手册,福建光学技术研究所,国防工业出版社,1992.5
[85] 辛企明,光学塑料非球面制造技术,国防工业出版社,2005
[86] 黄家康、岳红军、董永祺,复合材料成型技术,北京:化学工业出版社,1999.
[87] 何叶尔、李力,聚丙烯树脂的加工与应用(第二版),北京:中国石化出版社,1998
[88] 张知先,合成树脂和塑料牌号手册,北京:化学工业出版社,1994.3
[89] 周菊兴,合成树脂与塑料工艺,北京:化学工业出版社,2000
[90] 罗运军、桂红星,有机硅树脂及其应用,北京:化学工业出版社,2002
[91] 沈开猷,不饱和聚酯树脂及其应用,北京:化学工业出版社,2005
[92] 杨烈宇等,材料表面薄膜技术,北京:人民交通出版社,1991.5
[93] 李颜霞编著,塑料真空镀膜,北京:化学工业出版社,1990.4
[94] Pulker,H.K.,玻璃镀膜,北京:科学出版社,1988.5
[95] 薛涛、赵俊民,化学镀膜技术,北京:国防工业出版社,1982
[96] 严一心、林鸿海,薄膜技术,北京:兵器工业出版社,1994.10
[97] 《光学薄膜》编写组,光学薄膜,上海:上海人民出版社,1976
[98] Feldman,L.C.、Mayer,J.M.,表面与薄膜分析基础,上海:复旦大学出版社,1989.10
[99] 林永昌、卢维强,光学薄膜原理,北京:国防工业出版社,1990.5
[2] 纪铁刚,基于激光信息交联的穿甲弹用定距起爆控制技术研究,南京:南京理工大学博士论文,2005.6
[3] N.M.柯甘,雷达引信原理,北京:国防工业出版社,1998.8
[4] 孙全意,引信激光近程定距系统的体制、定距与识别技术研究,南京理工大学博士论文,2002.6
[5] 赵锋、张更宇,美军炮兵弹药配编特点及发展趋势,外军炮兵,2004年第11期
[6] 陈炳林,破甲弹一次激光定距技术研究,南京理工大学博士论文,2005.6
[7] 刘景萍,无线电引信干扰信号的研究及仿真,南京理工大学博士论文,2000.9
[8] 崔占忠、宋世和,近感引信原理,北京:北京理工大学出版社,1998.8
[9] 杨亦春,近程探测技术原理与应用,南京:南京理工大学出版社,1998.12
[10] 袁正,激光引信综述,航空兵器,1998.3
[11] 武器装备编写组著,中国教育开发网科技教育频道军事天地栏目
[12] 王茜,美国为MIA2“艾布拉姆斯”坦克研制新型制导弹药,央视国际2006-9-28
[13] Christian M. von der Lippe, ADVANCED OPTICAL FUZING TECHNOLOGY, ASC-2004
[14] 张乐,激光雷达发射和接收光学系统研究,国防科学技术大学硕士论文,2004.11
[15] 骏龙科技有限公司技术支持部著,使用Cyclone器件中的PLL
[16] H. o. Nyongesa, S. Kent, R. O Keefe. Genetic Programming fot Anti-Air Missile Proximity Fuze Delay-Time Algorithms. IEEE AES Systems Magazine, 2001: 41-45
[17] O'Malley: Kobi. Optically set fuze system. US Patent 5,247, 866. 1993
[18] 卢子兴,田常津等.聚氨酯泡沫塑料冲击力学性能的实验研究.高分子材料科学与工程.1995 11(6):76-81
[19] 卢子兴,田常津等.聚氨酯泡沫塑料在应力波加载下的压缩力学性能研究.爆炸与冲击.1995 15(4):382-388
[20] 高林奎、宋玮编,激光测距,北京:人民铁道出版社,1977.4
[21] 刘峰,脉冲半导体激光测距机的研制及应用,红外与激光工程,Vol.32.No.2,2003.4
[22] 袁正,激光引信综述,航空兵器,1998.3
[23] 朱尚明,激光三角法测距传感器的设计与实现,自动化仪表,Vol.19,No.12,1998.12
[24] 姜洪、李恩普、赵建林等,激光三角测距在测量路面时的计算和分析,西安公路交通大学学报,Vol.20,NO.2,2000.4
[25] 陈殿仁,激光目标识别与通信系统研究,中国科学院博士研究生学位论文.2000.4
[26] 赵建林、郝建华、王军等,激光三角测距的一种实验标定方法,西北工业大学学报,Vol.16,NO.3.1998.8.
[27] 孔有发,国外激光引信的现状及其发展,现代引信,1992.4
[28] 陈金浩,主动式激光引信原理简介,现代引信,1992.3
[29] 闵杰等,使用外弹道学,兵器工业部教材审编室,1986.7
[30] 冉黎林等一种空空导弹主动引信激光近程定距系统方案探讨航空兵器2002年第1期P11
[31] MAXIM数据产品手册,2002,2
[32] 冯建平,FPGA/CPLD应用系统设计与产品开发,北京:人民邮电出版社,2005.7
[33] 车念曾等,辐射学和光度学,北京理工大学出版社
[34] 黄润,表征漫反射体反射特性的一个重要物理量—双向反射分布函数,光学机械,1,1988,p17-22
[35] 魏庆龙,双向反射函数的绝对测量方法,光学学报,16(10)1996,p1425-1430
[36] 丁小白,激光雷达散射截面实验与理论研究,激光技术,18(3),1994,p172-177
[37] 张群兴等,目标反射特性对激光末制导精度的影响,火力与指挥控制,2004.2
[38] 王代智,激光末制导武器系统概论[M],合肥:炮兵学院出版社,1997,P97
[39] 钟宜兴,评定激光末制导炮弹射击效力的模型[J],弹道学报,1997(9)
[40] 李富铭,刘一先,光学测量[M],上海:科学技术文献出版社,1999
[41] 卜春彦等,大学物理学[M].长春:吉林大学出版社,1998
[42] 张彦梅,磁、激光复合探测技术研究,探测与控制学报,2004.12,P40-43.
[43] 齐鑫,光纤延时在脉冲体制引信激光近程定距系统中的应用研究,南京理工大学硕士论文,2000
[44] Thomas R. Harrison, Stockton, Clif. Proximity fuze. Washington. D. C. USP4859054. Aug. 22, 1989.
[45] Leland V. Gardner, Buellton, Calif. Optical fuze with improved range function. Washington, D. C. USP4310760. Jan. 12.1982.
[46] 卢春生,光电探测技术及应用.第1版.北京:机械工业出版社,1992
[47] 付有余,激光测距与跟踪系统低噪声电子设计方法.光学精密工程.2000 8(3):250-253
[48] 纪铁刚、张河、陈炳林,基于半主动激光技术的远程精确炸点控制,弹箭与制导学报.200424(3):278-280
[49] Ji tiegang, Zhang He, Ding libo, Chen binglin. Technology of rotating body data acquisition system based on wireless digital transmission module. 5th International Symposium on Test and Measurement, 2003 vol 1: 569-572
[50]. Leland V. Gardner, Buellton, Calif. Optical fuze with improved range function. Washington, D.C. USP4310760. Jan. 12.1982.
[51] 戴炳明,张雏,李东石.脉冲激光测距机的测距误差分析.激光技术.Vol23,No.1,1999.2
[52] 王伟、邓甲昊等,伪随机码在激光探测器中的应用.探测与控制学报.2004.12,P44-46
[53] 杨成伟,陈千颂,林彦,霍玉晶.脉冲激光测距时间间隔测量及误差分析.激光与红外.Vol.32,No.2,2003.4
[54] 朱相磊,脉冲-相位式激光测距仪的研究,山东科学,Vol.11,No.3,1998.9
[55] 李季、张毅、戚俊等,DDS技术在数字激光相位测距仪中的应用,量子电子学报,Vol.20 No.22003.4
[56] DALAS电子元器件产品手册,2002.6
[57] 潘琢金,施国君编著,C8051Fxxx高速SOC单片机原理及应用,北京:北京航空航天大学出版社,2002
[58] Texas Instruments Incorporated著,MS320VC55x系列DSP的CPU与外设,清华大学出版社,2005
[59] 邱永红等,基于软件通信体系结构的无线通信系统研究[J],系统工程与电子技术,2004,26(5),p621-623
[60] 桑会平等,基于现场可编程门阵列的脉冲激光引信高精度实时定距技术研究,探测与控制学报,2006.8,P19-23
[61] 张伟民、黄强等,基于激光与双目视觉的物理快速定位,探测与控制学报,2004.12,P84-87
[62] Altera, Altera Cyclone Data Sheet[Z], USA: Altera, 2003
[63] 丁立波,小口径空炸引信炸点控制技术研究,南京理工大学博士论文,2005.6
[64] 王昌明,实用弹道学,兵器工业出版社,1994.5
[65] 王保国等,气体动力学,北京理工大学出版社,2005 8
[66] 韩中忠、王敬、兰小平编,FLUENT:流体工程仿真计算实例与应用,北京理工大学出版社,2004
[67] Willmarth W W. Pressure Fluctuations beneath Turbulent Boundary Layer. Annual Reviews of Fluid Mechanics, Vol. 1975
[68] Chew L. et al. Experimental Investigation of Transitional Shear layer Optics. AIAA Journal, Vol. 31, No. 12, Dec. 1993
[69] Marcuse D. Light Transmission Optics. Van Nostrand Rein Hold Company New York 1982
[70] Schlichting H. Boundry-Layer Theory. New York, McGraw-Hill 1968
[71] Marcuse D. Theory of a Thermal Gradient Gas Lens, IEEE Trans. Microwave Theory and Techniques, MTT-13, No. 6, Nov. 1965
[72] Shen P I. Beam Tube Thermal Blooming Experiment and Analysis. AFWL TR-81-T129, 1981
[73] Valley G C. Thermal Blooming in Axial Pipe Flow. Applied Optics, Vol. 18. Aug. 1979
[74] 李桂春,气动光学,国防工业出版社,2006.1
[75] 童秉纲等,气体动力学,高等教育出版社,1990.5
[76] 张志涌等 精通MATLAB6.5版 北京航空航天大学出版社2003.3
[77] 李玉权,崔敏,光波导理论与技术,北京:人民邮电出版社,2002
[78] 赵策洲、高勇,半导体硅基材料及其光波导,北京:电子工业出版社,1997
[79] Harrison, U. S. Patent, Number: 4,859,054, Aug. 22,1989
[80] 向世明,倪国强,光电子成像器件原理,第1版,北京:国防工业出版社,1999
[81] BEWTRA N, SUDA D A, TAN G L, et al. Modeling of quantum well lasers with electro-opto-thermal interaction [J]. IEEE J Selected Topics in Quantum Electronics, 1995, 1(2): 331-339
[82] 卢春生,光电探测技术及应用,第1版,北京:机械工业出版社,1992
[83] NAGARAJANR, ISHIKAUAM, FUKUSHIMA T, et al. High speed quantum-well lasers and carrier transport effects. IEEE J Quantum Electronics, 1992, 28(10): 1990-2448.
[84] 国营红星机电厂编译,光学镜头手册,福建光学技术研究所,国防工业出版社,1992.5
[85] 辛企明,光学塑料非球面制造技术,国防工业出版社,2005
[86] 黄家康、岳红军、董永祺,复合材料成型技术,北京:化学工业出版社,1999.
[87] 何叶尔、李力,聚丙烯树脂的加工与应用(第二版),北京:中国石化出版社,1998
[88] 张知先,合成树脂和塑料牌号手册,北京:化学工业出版社,1994.3
[89] 周菊兴,合成树脂与塑料工艺,北京:化学工业出版社,2000
[90] 罗运军、桂红星,有机硅树脂及其应用,北京:化学工业出版社,2002
[91] 沈开猷,不饱和聚酯树脂及其应用,北京:化学工业出版社,2005
[92] 杨烈宇等,材料表面薄膜技术,北京:人民交通出版社,1991.5
[93] 李颜霞编著,塑料真空镀膜,北京:化学工业出版社,1990.4
[94] Pulker,H.K.,玻璃镀膜,北京:科学出版社,1988.5
[95] 薛涛、赵俊民,化学镀膜技术,北京:国防工业出版社,1982
[96] 严一心、林鸿海,薄膜技术,北京:兵器工业出版社,1994.10
[97] 《光学薄膜》编写组,光学薄膜,上海:上海人民出版社,1976
[98] Feldman,L.C.、Mayer,J.M.,表面与薄膜分析基础,上海:复旦大学出版社,1989.10
[99] 林永昌、卢维强,光学薄膜原理,北京:国防工业出版社,1990.5