激光推进器概念设计研究现状及发展趋势

Laser propulsion technology is one of the advanced propulsion technologies that has been paid a great deal of attention to. Of all the laser propulsion technologies, laser thruster technology is an important technology, and it is also a vital one. Based on a thoroughly research on the home and foreign literatures, the status and development trend of concept studies on laser propulsion thrusters is summarized. The advantages and disadvantages of the thrusters are pointed out.

参考文献

[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.

[12] 金星,洪延姬,崔村燕,等. 激光推进冲量耦合系数的测量方法[J]. 强激光与粒子束, 2004,16(7):861-864.
Jin X, Hong Y J, Cui C Y, et al. Measure method of impulse coupling-coefficient of laser propulsion. High Power Laser and Particle Beams, 2004, 16(7):861-864.

[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.

激光推进器概念设计研究现状及发展趋势

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