[1] Frank T Kantrowitz. Vertical molecular absorption coefficient profiles and associated meteorological data at the high energy laser systems test facility for 20 august 1991[C]. AD Report,1992,A257 353,127.
[2] Gross R W F, Bott J F. Handbook of Chemical Laser[M]. Yin Houming, Xie Xingbin, Luo Jingyuan, Transl. Beijing:Science Press,1987.
[3] Davis S J, Rawlins W T, Oakes D B, et al. Dynamics of HF(v,j) chemiluminescence and lasing by infrared hyperspectral imaging[C]. 34th AIAA Plasmadynamics and Lasers Conference,rlando:AIAA,2003,17.
[4] Basov N G, Bashkin A S, Igoshin V I, et al. Chemical lasers[M].Berlin:SpringerVerlag,1990.
[5] Manke II G C, Hager G D. A Review of Recent Experiments and Calculations relevant to the kinetics of the HF Laser[C]. 33rd AIAA Plasmadynamics and Lasers conference,Hawaii:AIAA,2002,110.
[6] Kompa K L. Chemical lasers[M].Berlin: SpringerVerlag,1973.
[7] Rowlins W T, Oakes D B, Mulhall P A, et al. Imaging spectroradiometer for HF laser studies[C]. SPIE Proceedings, Gas and Chemical Lasers and Intense Beam Applications Ⅲ,San Jose : SPIE,2002,18.
[8] Injeyan H, Wang H S. CW HF Rbranch laser: U.S., 4598409[P]. July 1,1986.
[9] Kerber R L, Cohen N, Emanuel G. Kinetic Model and Computer Simulation for a pulsed DFCO2 Chemical Transfer Laser[J]. IEEE Journal of Quantum Electronics,1973,9(1):94113.
[10] Detweiler G L, Sentman L H, Carroll D L, The Possibility of Hot Reaction Enhancement of CW HF Laser Performance[C]. AIAA 36th Plasma Dynamics and Lasers Conference,Toronto:AIAA,2005,114.
[11] LUO Wei, YUAN Shengfu, YAN Baozhu, et al. Kinetics Analysis of the Chemiluminescence in Discharge Driven HF Chemical Lasers[J]. Chin. Opt. Lett,2011,9(8):081403.