[1] Duo Liping,Yang Bailing. Gas Flow Chemical Lasers Diagnostics [M]. Beijing:Science Press,2005

[2] Duo Liping,Li Liucheng,Wang Zengqiang et al.. Recent development of electric oxygen-iodine laser [J]. Laser and Optoelectronics Progress,2008,45(11):15-21

[3] R. F. Tate,M. Harris,B. T. Anderson et al.. Short-pulse photolytic iodine laser [C]. SPIE,2000,4065:658-665

[4] Duo Liping,Li Guofu,Yu Haijun et al.. Study of pulsed discharge of gases simulated in N2-chemical oxygen-iodine laser [J]. Chinese J. Lasers,2009,36(9):2315-2318

[5] J. Schmiedberger,V. Jirasek,M. Censky et al.. RF discharge generation of I atoms in CH3I and CF3I for COIL/DOIL [C]. SPIE,2009,7131:71310E

[6] Tang Shukai,Duo Liping,Yu Haijun et al.. Experimental study of combustor of combustion driven all gas-phase iodine laser [J]. Chinese J. Lasers,2009,36(6):1403-1406

[7] O. Spalek,V. Jirasek,J. Kodymova et al.. Chemical generation of atomic iodine for COIL [C]. SPIE,2002,4631:34-42

[8] Li Liucheng,Duo Liping,Yang Bailing. Chemical kinetics simulation for H+NCl3+HI chemical laser system [J]. Chinese J. Lasers,2009,36(2):367-373

[9] V. N. Azyazov,P. A. Mikheyev,M. V. Vorobyov et al.. Properties of a dc glow discharge iodine atom generator [C]. SPIE,2009,7131:71310A

[10] V. N. Azyazov,M. V. Vorob′Ev,A. I. Voronov et al.. Parameters of an electric-discharge generator of iodine atoms for a chemical oxygen-iodine laser [J]. Quantum Electronics,2009,39(1):84-88

[11] V. Jirasek,J. Schmiedberger,M. Censky et al.. Generation of I atoms for oxygen-iodine lasers using RF discharge dissociation of various I donors[C]. 40th AIAA Plasma Dymamics and Lasers Conference,San Antonio,2009,4064:1-9

[12] P. A. Mikheyev,A. A. Shepelenko,A. I. Voronov et al.. Production of iodine atoms by dissociating CH3I and HI in a dc glow discharge in the flow of argon [J]. J. Phys. D:Appl. Phys.,2004,37(22):3202-3206

[13] P. A. Mikheyev,A. A. Shepelenko,A. I. Voronov et al.. Atomic iodine production in a gas flow by decomposing methyl iodide in a dc glow discharge [J]. Quantum Electronics,2002,32(1):1-4

[14] V. Jirasek,O. Spalek,J. Kodymova et al.. Chemical generation of atomic iodine for chemical oxygen-iodine laser. I. modelling of reaction systems [J]. Chemical Physics,2001,269(1-3):167-178

[15] O. Spalek,V. Jirasek,J. Kodymova et al.. Preliminary experimental results on chemical generation of atomic iodine for a COIL [C]. SPIE,2001,4184:111-115

[16] O. Spalek,V. Jirasek,M. Censky et al.. Chemical generation of atomic iodine for the chemical oxygen-iodine laser. II. experimental results [J]. Chemical Physics,2002,282(1):147-157

[17] O. Spalek,M. Censky,V. Jirasek et al.. Chemical oxygen-iodine laser using a new method of atomic iodine generation [J]. IEEE J. Quantum Electron.,2004,40(5):564-570

[18] O. Spalek,V. Jirasek,M. Censky et al.. Chemical oxygen-iodine laser with atomic iodine generated via Cl or F atoms [C]. SPIE,2005,5777:181-186

[19] V. Jirasek,O. Spalek,M. Censky et al.. Chemical oxygen-iodine laser with instantaneous production of atomic iodine from gaseous reactants [C]. SPIE,2005,6053:605307

[20] V. Jirasek,O. Spalek,J. Kodymova et al.. Modeling of the chemical generation of atomic iodine in a chemical oxygen-iodine laser [C]. SPIE,2002,4631:43-52

[21] M. Censky,O. Spalek,V. Jirasek et al.. Chemical generation of atomic iodine for a COIL via atomic fluorine [C]. SPIE,2004,5334:60-69

[22] K. B. Hewett,G. D. Hager,P. G. Crowell. Chemical generation of iodine atoms [J]. Chemical Physics,2005,308(1-2):159-169

[23] V. Jirasek,O. Spalek,M. Censky et al.. Generation of atomic iodine via fluorine for chemica oxygen-iodine laser [J]. Chemical Physics,2007,334(1-3):167-174

[24] O. Spalek,V. Jirasek,M. Censky et al.. Chemical oxygen-iodine laser with atomic iodine generated via fluorine atoms [C]. SPIE,2007,6735:673506

[25] V. Jirasek,M. Censky,O. Spalek et al.. Chemical oxygen-iodine laser with atomic iodine generated via fluorine atoms [J]. Chemical Physics,2008,345(1):14-22

[26] M. Censky,O. Spalek,V. Jirasek et al.. Development of COIL with chemically generated atomic iodine [C]. SPIE,2006,6611:661102

[27] V. Jirasek,O. Spalek,M. Censky et al.. Study of COIL active medium with atomic iodinegenerated via fluorine atoms [C]. SPIE,2009,7131:71310M