| [1] | [1] 孙承纬,陆启生,范正修,等. 激光辐照效应[M].北京:国防工业出版社,2002:145-146.
|
| [2] | [2] Krehl P, Schwirzke F, Cooper A W. Correlation of stress-wave profiles and the dynamics of the plasma produced by laser irradiation of plane solid targets[J]. Journal of Applied Physics, 1975, 46(10): 4400-4406.
|
| [3] | [4] 经福谦,陈俊祥. 动高压原理与技术[M]. 北京:国防工业出版社,2006:33.
|
| [4] | [5] Cogan S,Shirman E,Haas Y. Production efficiency of thin metal flyers formed by laser ablation[J]. Journal of Applied Physics, 2005, 97(11):113508-113513.
|
| [5] | [6] Okada K,Wakabayashi K,Takenaka H,et al. Experimental technique for launching miniature flying plates using laser pulses[J]. International Journal of Impact Engineering,2003,29:497-502.
|
| [6] | [7] Roybal R, Tlomak P, Stein C, et al. Simulated space debris impact experiments on toughened laminated thin solar cell cover glass[J]. International Journal of Impact Engineering, 1999, 23(1): 811-821.
|
| [7] | [12] Royal R,Stein C,Miglionico C,et al. Laboratory simulation of hypervelocity debris[J]. International Journal of Impact Engineering,1995, 17(4): 707-718.
|
| [8] | [13] 董洪建,童靖宇,王吉辉,等. 激光驱动微小碎片技术可行性研究试验[J]. 航天器环境工程,2002,19(2):51-54.
|
| [9] | [18] 王霄,杨昆,刘会霞,等. 激光驱动飞片加载金属箔板成形及数值模拟[J]. 塑性工程学报,2009,16(1):25-30.
|
| [10] | [19] Watson S,Gifford M J,Field J E. The initiation of fine grain pentaerythritol tetra nitrate by laser-driven flyer plates[J]. Journal of Applied Physics,2000,88(1):65-69.
|
| [11] | [22] Goujon J,Musset O,Marchand A,et al. Synchronous initiation of optical detonators by Q-Switched solid laser sources[C]//Proceedings of SPIE, the International Society for Optical Engineering, Bellingham:Society of Photo-Optical Instrumentation Engineers,2008, 7115: 71150P1-71150P11.
|
| [12] | [23] Paiseley D L,Warnes R H,Kopp R A. Laser-driven flat plate impacts to 100 GPa with sub-nanosecond pulse duration and resolution for material property studies[C]// American Physical Society Conference on Shock Compression of Condensed Matter,Williamsburg:NASA,1992:825-828.
|
| [13] | [31] Greenaway M W,Gifford M J,Proud W G,et al. An investigation into the initiation of hexanitrostilbene by laser-driven flyer plates[C]// AIP Conference Proceedings, Aldermaston:NASA,2002, 620: 1035-1038.
|
| [14] | [32] Bowden M D, Maisey M P, et. al. The initiation of fine particle hexanitrostilbene using laser-driven flyer plates[C]//13th International Detonation Symposium, VA:Sheraton Waterside Hotel,2006: 980-988.
|
| [15] | [36] Paisley D L,Luo S N,Greenfield S R,et al. Laser-launched flyer plate and confined laser ablation for shock wave loading: Validation and applications[J]. Review of Scientific Instruments, 2008, 79(2): 023902.
|
| [16] | [37] 高杨,赵翔,赵兴海,等. 激光起爆引信及其关键技术[J]. 探测与控制学报,2008,30(1):18-24.
|
| [17] | [38] Barker L M,Hollenbach R E. Laser interferometer for measuring high velocities of any reflecting surface[J]. Journal of Applied Physics, 1972,43(11): 4669-4675.
|
| [18] | [39] Tollier L,Fabbro R,Bartnicki E. Study of the laser-driven spallation process by the velocity interferometer system for any reflector interferometer technique. I. laser-shock characterization[J]. Journal of Applied Physics, 1998, 83(3): 1224-1230.
|
| [19] | [40] Bloomquist D D,Sheffield S A. Optically recording interferometer for velocity measurements with subnanosecond resolution[J]. Journal of Applied Physics, 1983, 54(4): 1717-1722.
|
| [20] | [41] Wang Z H, Luo S N,Barnes C W,et al. Correlated-intensity velocimeter for arbitrary reflector for laser-produced plasma experiments[J]. Review of Scientific Instruments, 2006, 77: 10E516.
|
| [21] | [42] 谷卓伟,孙承纬,刘仓理,等. 小型激光器驱动飞片的平均速度测量研究[J]. 强激光与粒子束,2001,13(3):309-312.
|
| [22] | [43] 李涛,翁继东,王治平,等. 电爆炸驱动小飞片速度测量速度[J]. 高能量密度物理,2007,(2):55-61.
|
| [23] | [44] Shwarz A C. New technique for determining the shock initiation sensitivity of explosives[C]//Conference on the Standardization of Safety and Performance Tests for Energetic Materials, Dover : Sandia Labs ,1977: 22.
|
| [24] | [52] Barker L M. The development of the VISAR, and its use in shock compression science[C]//AIP Conference Proceedings, Snowbird:NASA,2000, (505): 11-17.
|
| [25] | [63] 谷卓伟,孙承纬,罗利军. 激光驱动飞片实验研究及其应用分析[J]. 红外与激光工程, 2002, 31(5):428-431.
|
| [26] | [65] Paisley D L,Montoya N I,Stahl D B,et al. Interferometry, streak photography, and stereo photography of laser-driven miniature flying plates[J]. 19th International Congress on High-Speed Photography and Photonics,1990,1358:760-765.
|
| [27] | [66] Paisley D L,Stahl D B,Garcia I A. Simultaneous velocity interferometry and electronic streak photography of laser-launched plates[J]. Proceedings of SPIE,1992,1539: 252-256.
|
| [28] | [67] Paisley D L,Stahl D B. One-dimensional plates launch techniques and associated diagnostics[J]. Proceedings of SPIE,1997,2869:576-580.
|
| [29] | [68] Paisley D L. Laser-driven miniature flyer plates for shock initiation of secondary explosives[R]. Albuquerque :Conference on Shock Compression of Condensed Matter,1989.
|
| [30] | [3] Decoste R, Bodner S E, Ripin B H,et al. Ablative acceleration of laser-irradiated thin-foil targets[J]. Physical Review Letters, 1979, 42(25): 1673-1677.
|
| [31] | [8] Paisley D L. Confined plasma ablation for shock physics, plate launch and material dynamics[C]// Proceedings of SPIE the International Society for Optical Engineering,US:International Society for Optical Engineering,2006, 6261: 62611Y.
|
| [32] | [9] Paisley D L,Warnes R H,Kopp R A. In shock compression of condensed matter 1991[C]// Proceedings of the American Physical Society Topical,Williamsburg:Shock Compression of Condensed Matter,1992:1082-1085.
|
| [33] | [10] 黄秀光,罗平庆,傅思祖,等. 一种激光驱动高压状态方程绝对测量方法的探索[J]. 物理学报,2002,51(2):337-341.
|
| [34] | [11] Swift D C,Paisley D L,McClellan K J,et al. Equation of state of solid nickel aluminide[J]. Physical Review B:Condensed Matter And Materials Physics,2007,76(13):134111-134125.
|
| [35] | [14] Verker R,Grossman E, Gouzman I, et al. Residual stress effect on degradation of polyimide under simulated hypervelocity space debris and atomic oxygen[J]. Polymer, 2007, 48(26): 19-24.
|
| [36] | [15] Katz S,Grossman E,Gouzman I,et al. Response of composite materials to hypervelocity impact[J]. International Journal of Impact Engineering,2008,35(12): 1606-1611.
|
| [37] | [16] Zhou M,Huang T,Cai L. The novel nanosecond laser micro-manufacturing of three-dimensional metallic structures[J]. Applied Physics A: Materials Science & Processing,2008,90(2):293-297.
|
| [38] | [17] 刘会霞,杨昆,王霄,等. 激光驱动飞片加载金属箔板成形机理研究[J]. 中国机械工程,2009,20(7):865-868.
|
| [39] | [20] 谷卓伟,孙承纬,苏小勇. 小型激光器驱动飞片冲击引爆炸药实验研究[J]. 爆炸与冲击,2002,22(1):88-91.
|
| [40] | [21] Bowden M D,Drake R C. The initiation of high surface area pentaerythritol tetranitrate using fiber-coupled laser-driven flyer plates[C]// Proceedings of SPIE, the International Society for Optical Engineering, Bellingham:Society of Photo-Optical Instrumentation Engineers,2007, 6662: 66620D1- 66620D12.
|
| [41] | [24] Bowden M D,Maisey M P. Determination of critical energy criteria for hexanitrostilbene using laser-driven flyer plates[C]// Proceedings of SPIE, the International Society for Optical Engineering,Bellingham:Society of Photo-Optical Instrumentation Engineers, 2008,7070: 707004.1- 707004.7.
|
| [42] | [25] Paisley D L,Swift D C,Tierney T E,et al. Diagnostics for confined plasma ablation for plate launch and shock generation[C]//26th International Congress on High-Speed Photography and Photonics, US:International Society for Optical Engineering,2005, 5580: 868-872.
|
| [43] | [26] 张文兵,董洪建,龚自正,等. 激光驱动微小碎片超高速发射技术研究[J]. 装备环境工程,2007,4(1):56-61.
|
| [44] | [27] 董洪建,黄本诚,王吉辉,等. 激光驱动微小碎片技术可行性研究[J]. 中国空间科学技术,2002,(5):49-53.
|
| [45] | [28] Farnsworth A V. Laser acceleration of thin flyers[C]// Proceedings of the Conference of the American Physical Society,New Mexico:American Institute of Physics,1996, 370: 1225-1228.
|
| [46] | [29] Trott W M. Investigation of the dynamic behavior of laser-driven flyers[C]//AIP Conference Proceedings, New Mexico:American Institute of Physics,1994, 309: 1655-1658.
|
| [47] | [30] Trott W M. High-speed optical studies of the driving plasma in laser acceleration of flyer plates[C]//AIP Conference Proceedings, New Mexico:American Institute of Physics,1996, 370: 921-924.
|
| [48] | [33] Stahl D B,Paisley D L. Carbon-assisted flyer plates[P]. United States Patent 5301612, 1994.
|
| [49] | [34] Hatt D J,Waschl J A. A study of laser-driven flyer plates[C]// Proceedings of the Conference of the American Physical Society Topical Group on Shock Compression of Condensed Matter,UK:NASA,1996, 370:1221-1224.
|
| [50] | [35] Labaste J L,Brisset D,Doucet M. Investigation of driving of plasma materials for laser acceleration of flyer plates[C]// Conference on Shock Compression of Condensed Matter,Snowbird:American Physical Society,2000,505:1189-1192.
|
| [51] | [45] 陈朗,冯长根. 激光速度干涉仪测量炸药驱动金属的运动速度[J]. 兵工学报, 2003, 24(1): 121-124.
|
| [52] | [46] Cutting J L, Lee R S, Hodgin R L. Slapper detonator performance[R]. Quantic Industries Inc. UCRL-ID-117787, 1994.
|
| [53] | [47] 陈光华,李泽仁,刘寿先,等. Fabry-Perot干涉仪测量爆轰加载下的飞片自由面速度[J]. 信息与电子工程,2006,4(5):369-371.
|
| [54] | [48] McMillan C F,Goosman D R,Parker N L,et al. Velocimetry of fast surfaces using Fabry-Perot interferometry[J]. Review of Scientific Instruments, 1988, 59(1): 010001.
|
| [55] | [49] Levin L. Fiber optic velocity interferometer with very short coherence length light source[J]. Review of Scientific Instruments, 1996, 67(4): 1434-1437.
|
| [56] | [50] Weng J D, Wang X,Ma Y,et al. A compact all-fiber displacement interferometer for measuring the foil velocity driven by laser[J]. Review of Scientific Instruments, 2008, 79(11): 113101.
|
| [57] | [51] Maisey M P,Bowden M D. Characterization of detonator performance using photonic Doppler velocimetry[J]. The International Society for Optical Engineering,2008, 7070: 70700P.1-70700P.9.
|
| [58] | [53] Valenzuela A R,Rodriguez G,Clarke S A. Optically-based velocity and topographic measurement systems in the nano-scale for developing optical initiation[C]//Proceedings- SPIE The International Society for Optical Engineering,US:International Society for Optical Engineering, 2007, 6662: 6662 0A.
|
| [59] | [54] Strand O T,Goosman D R,Martinez C,et al. Compact system for high-speed velocimetry using heterodyne techniques[J]. Review of Scientific Instruments, 2006, 77(8): 083108-083115.
|
| [60] | [55] Jensen B J,Holtkamp D B,Rigg P A,et al. Accuracy limits and window corrections for photon Doppler velocimetry[J]. Journal of Applied Physics,2007, 106(4): 049901-049910.
|
| [61] | [56] 董洪建,童靖宇,黄本诚. 真空环境下空间碎片超高速撞击试验研究[J]. 真空科学与技术学报,2004,24(2):109-112.
|
| [62] | [57] Verker R,Eliaz N,Gouzman I,et al. The effect of simulated hypervelocity space debris on polymers[J]. Acta Materialia,2004,52(19): 5539-5549.
|
| [63] | [58] Greenaway M W,Proud W G,Field J E,et al. A laser-accelerated flyer system[J]. International Journal of Impact Engineering, 2003, 29: 317-321.
|
| [64] | [59] Paisley D L,Luo S N,Greenfield S R,et al. Laser-launched flyer plate and confined laser ablation for shock wave loading: validation and applications[J]. Review of Scientific Instruments, 2008, 79(2): 023902-023909.
|
| [65] | [60] 谷卓伟. 激光驱动高速飞片的实验和理论研究[D]. 绵阳:中国工程物理研究院,2002.
|
| [66] | [61] Swift D C, Niemczura J G,Paisley D L,et al. Laser-launched flyer plates for shock physics experiments[J]. Review of Scientific Instruments, 2005, 76(9): 093907.
|
| [67] | [62] 童靖宇,庞贺伟,黄本诚. 一种新型空间微小碎片超高速碰撞试验地面模拟方法[J]. 航天器环境工程, 2001, (3): 25-32.
|
| [68] | [64] Yong L D,Nguyen T,Waschl J. Laser ignition of explosives, pyrotechnics and propellants:a review[R]. AD-A299465,1995.
|
| [69] | [69] Cheng S W, Chun W Y, Yong Y H, et al. Shock initiation of explosives impacted by laser-driven flyers[C]// Proceedings of the 26th International Pyrotechnics Seminar, 1999:490-497.
|
