激光推进器概念设计研究现状及发展趋势
[1] Myrabo L N, Messitt D G, Mead F B Jr. Ground and flight tests of a laser propelled vehicle[R]. AIAA Paper,98-1001.
[2] Mead F B Jr, Myrabo L N, Messitt D G. Flight and ground tests of a laser-boosted vehicle[R]. AIAA Paper,98-3735.
[3] Nebolsine P E and Pirri A N. Laser propulsion: the early years[A]. First international symposium on beamed energy propulsion[C].America, 2003.11-21.
[4] Simons G A, Pirri A N. The fluid mechanics of pulsed laser propulsion[J]. AIAA Journal, 1977, 15(6): 835-842.
[5] Glumb R J, Krier H. Concepts and status of laser-supported rocket propulsion[J]. J Spacecraft, 1984, 21(1):70-79.
[6] Bohn W L. Laser lightcraft performance[A]. Proc of SPIE[C].2000, 3885:48-53.
[7] Schall W O, Bohn W L, Eckel H A, et al. Lightcraft experiments in Germany[A]. Proc of SPIE[C].2000, 4065:472-481.
[8] Bohn W L,Schall W O. Laser propulsion activities in Germany[A]. First International Symposium on Beamed Energy Propulsion[C].America, 2003.79-91.
[9] Niino M. Activities of laser propulsion in Japan[A]. First international symposium on beamed energy propulsion[C]. America, 2003.71-78.
[10] Torikai H, Urabe N, Kim S, et al. In-tube laser propulsion configuration[A]. First international symposium on beamed energy propulsion[C].America, 2003. 454-460.
[11] Ageichik A A, Egorov M S, Rezunkov Y A, et al. Experimental study on thrust characteristics of airspace laser propulsion engine[A]. Second international symposium on beamed energy oropulsion[C].Japan, 2004.49-60.
[13] Birkan M A. Laser propulsion: research status and needs[J]. J Propulsion and Power, 1992, 8(2):354-360.
[14] Myrabo L N. Propulsion systems integration for a 'tractor beam' mercury lightcraft: liftoff engine[A]. First international symposium on beamed energy propulsion[C].America, 2003. 683-694.
[15] Myrabo L N, Rosa R J. Hypersonic MHD propulsion system integration for the mercury lightcraft[A]. Second international symposium on beamed energy propulsion[C].Japan, 2004. 544-558.
[16] Myrabo L N, Raizer Y P, Surzhikov. Air plasma formation in MHD slipstream accelerator for mercury lightcraft[A]. Second international symposium on beamed energy propulsion[C].Japan, 2004. 534-543.
[17] Kare J T. Near-term laser launch capability: the heat exchanger thruster[A]. First international symposium on beamed energy propulsion[C].America, 2003. 442-453.
[18] Kare J T. Development program for the heat exchanger thruster and HX laser launch system[A]. Second international symposium on beamed energy propulsion[C].Japan, 2004. 251-262.
[19] Aviad B,Yeshayahou L. Laser propulsion system for space vehicles[J]. J Propulsion and Power, 1998, 14(2): 261-270.
[20] Bond A, Martin A R, Bond R A. Concept studies for a laser powered orbital transfer vehicle[J]. Acta Astronautica, 1989, 19(1): 73-86.
李修乾, 洪延姬, 何国强, 姚宏林. 激光推进器概念设计研究现状及发展趋势[J]. 强激光与粒子束, 2005, 17(3): 363. LI Xiu-qian, HONG Yan-ji, HE Guo-qiang, YAO Hong-lin. Status and development trend of concept studies on laser propulsion thruster[J]. High Power Laser and Particle Beams, 2005, 17(3): 363.