[1] |
Steverding B. Ignition of Laser Detonation Waves [J]. J Appl Phys, 1974, 45(8): 3507-3511. |
[2] |
Maher W E, Hall R B, Johnson R R. Experimental Study of Ignition and Propagation of Laser-Supported Detonation Waves [J]. J Appl Phys, 1974, 45(5): 2138-2145. |
[3] |
Messitt D G, Myrabo L N, Mead Jr F B. Laser Initiated Blast Wave for Launch Vehicle Propulsion [A]//The 36th AIAA Joint Propulsion Conference [C]. Huntsville, Alabama: AIAA, 2000: 3848. |
[4] |
Yan H, Adelgren R, Boguszko M, et al. Laser Energy Deposition in Quiescent Air [A]//The 41st Aerospace Sciences Meeting and Exhibit [C]. Reno, Nevada: AIAA, 2003: 1051. |
[5] |
Kawahara N, Beduneau J L, Nakayama T, et al. Spatially, Temporally, and Spectrally Resolved Measurement of Laser-Induced Plasma in Air [J]. Appl Phys B, 2007, 86(4): 605-614. |
[6] |
Lu J Y, Chen L, Feng C G. Evolution of Laser Supported Detonation Waves [J]. Science Technology Review, 2008, 26(10): 49-54. (in Chinese) |
[7] |
鲁建英, 陈朗, 冯长根. 激光支持等离子体爆轰波流场研究 [J]. 科技导报, 2008, 26(10): 49-54. |
[8] |
Raizer Y P. Heating of a Gas by a Powerful Light Pulse [J]. Soviet Physics JETP, 1965, 21: 1009-1017. |
[9] |
Hettche L R, Tucker T R, Schriempf J T, et al. Mechanical Response and Thermal Coupling of Metallic Targets to High-Intensity 1. 06- Laser Radiation [J]. J Appl Phys, 1976, 47(4): 1415-1421. |
[10] |
Kawahara N, Tomita E, Nakayama T, et al. Spatial and Temporal Characteristics of Laser-Induced Air Plasma [A]//The 44th Aerospace Sciences Meeting and Exhibit [C]. Reno, Nevada: AIAA, 2006: 1461. |
[11] |
Mori K, Komurasaki K, Arakawa Y. Influence of the Focusing f Number on the Heating Regime Transition in Laser Absorption Waves [J]. J Appl Phys, 2002, 92(10): 5663-5667. |
[12] |
Raizer Y P. Laser-Induced Discharge Phenomena: Studies in Soviet Science [M]. New York: Consultants Bureau, 1977: 199. |