Citation: | APOLLONOV V V. Stationary force production:experimental and theoretical investigations[J]. Chinese Optics, 2011, 4(1): 9-20. |
[1] Kantrowitz A R. Astronautics and Aeronautics,1972,10(5):74.
[2] PIRRY A,MONSLER M,NEBOLSINE R. Raket. Tekh. Kosmonavt.,1974,12(9):112.
[3] AGEEV V P,BARCHUKOV A I,BUNKIN F V,et al.. Laser air-breathing jet engine[J]. Kvantovaya Elektron.,Sov. J. Quantum Electron.,1977,7:1430.
[4] SCHALL W. Lightcraft experiments in Germany[J]. SPIE,2000,4065:472.
[5] MYRABO L N,RAIZER Yu P. 2nd Int. Symp. on Beamed Energy Propulsion,Japan,2003:534.
[6] SHERSTOBITOV V E,KALITIEEVSKIY N A,KUPRENYUK V I,et al.. 2nd Int. Symp. on Beamed Energy Propulsion Japan,2003:296.
[7] HASSON V,MEAD F,LARSON C. Ill Int. Symp. on Beamed Energy Propulsion,New York,p.3
[8] MORI K,MYRABO L. Ill Int. Symp. on Beamed Energy Propulsion(Troy,New York,2004) 2004:155.
[9] HARTLEY C S,PARTWOOD T W,FILIPPELLI M V,et al.. Ill Int. Symp. On Beamed Energy Propulsion,Troy,New York,2004:499.
[10] APOLLONOV V V,EGOROV A B,KIIKO V V,et al.. High-frequency repetitively pulsed operating regime in high-power wide-aperture lasers[J] . Sov. J. Quantum Electron.,2003,33,753.
[11] GRACHEV G N,PONOMARENKO, A G,SMIRNOV A L,et al.. Multifunctional 3-kW CO2 laser with controllable spectral and temporal characteristics for industrial and scientific applications[J]. SPIE,2000,4165:185.
[12] TISHCHENKO V N,APOLLONOV V V,GRACHEV G N,et al.. Interaction of an optical pulsed discharge with a gas: conditions for stable generation and merging of shock waves[J]. Sov. J. Quantum Electron.,2004,34:941.
[13] APOLLONOV V V,TISHCHENKO V N. Mechanism of shock wave merging in a laser jet engine[J] . Sov J.,Quantum Electron.,2004,34:1143.
[14]APOLLONOV V V,TISHCHENKO V N. Spontaneous breaking of spectral symmetry in solid-state ring lasers[J]. Sov. J. Quantum Electron.,2006,36:763.
[15] GRACHEV G N,PONOMARENKO A G,TISHCHENKO V N,et al.. Merging of shock waves produced by a moving pulsating optical discharge[J]. Sov. J. Quantum Electron.,2006:36,470.
[16] BIELESCH U,BUDDE M,FREISINGER B,et al.. Proc. ICPIG XXI(Arbeitsgemeinschaft,Plasmaphysik APP-RUB,1993:253).
[17] TRET'YAKOV P K,GRACHEV G N,IVANCHENKO A I,et al.. Dokl. Akad. Nauk,1994,336(4):466.
[18] MYRABO L N,RAIZER Yu R. AIAA Paper,No.94-2451,1994.
[19] BORZOV V Y,MIKHAILOV V M,RYBKA I V,et al.. Inzh.-Fiz. Zh.,1994,66(5):15.
[20] GRACHEV G N,PONOMARENKO A G,SMIRNOV A L,et al.. A pulsating optical discharge moving in a gas laser[J]. Sov. J. Quantum Electron.,2005,35:973.
[21] PROKHOROV A M,KONOV V I,URSU I,et al.. Vzaimodeistvie Lazernogo Izlucheniya Smetallami Interaction of Laser Radiation with Metals[M]. Moscow:Nauka,1988.
[22] KOROBEINIKOV V P. Zadachi Teorii Tochechnogo Vzryva:Problems of the Theory of Point Explosion[M]. Moscow:Nauka,1985.
[23] RAIZER Y P. Gas Discharge Physics[M]. Berlin: Springer,1991; Moscow:Nauka,1987.
[24] TISHCHENKO V N,ANTONOV V M,MELEKHOV A V,et al.. Pis'ma Zh. Tekh. Fiz.,1996,22:30.
[25] APOLLONOV V V,TISHCHENKO V N. Laser air-jet engine: the action of shock waves at low laser pulse repetition rates[J]. Sov. J. Quantum Electron.,2007,37(8):798.
[26] BUNKIN F V,PROKHOROV A M. Usp. Fiz. Nauk,1976,119:425.
[27] KABANOV S. N,MASLOVA L I,TARKHOVA T I,et al.. Zh. Tekh. Fiz.,1990,60:37.
[28] GRACHEV G N,TISHCHENKO V N,APOLLONOV V V,et al.. Laser applications and other topics in quantum electronics[J]. Sov. J. Quantum Electron.,2007,37:669.
|