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One-dimensional pre-mixed model for a pulsed chemical oxygen-iodine laser is presented according to the reaction mechanism in chemical oxygen-iodine laser. The dependence of species concentration and optical parameters on single pulse energy and pulse duration is studied. The dynamical process is analyzed while laser is running. Gain switching during lasing is discussed.These results can provide theoretical support for the optimization of pulsed chemical oxygen-iodine laser.
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Keywords:
- atomic iodine /
- pulse /
- chemical oxygen-iodine laser
[1] Wani F, Nakabayashi T, Hayakawa A 2002 Proc. SPIE 4631 128
[2] Yuryshev N N 1991 Proc. SPIE 1397 221
[3] Zhang R Y, Chen F, Sang F T, Min X D, Shao M Y 1989 Proc. SPIE 1031 308
[4] Li G F, Yu H J, Duo L P, Jin Y Q 2009 Chin. Phys. Lett. 26 114201
[5] Vagin N P, Pazyuk V S, Yuryshev N N 1995 Quant. Electron. 25 746
[6] Vagin N P, Yuryshev N N 2001 Quant. Electron. 31 127
[7] Matsuzaka F, Ohga T 1989 Proc.Int.Conf. "Lasers’89" 223
[8] Highland R, Crowell P, Hager G 1990 Proc. SPIE 1225 512
[9] Schmiedberger J, Kodymova J 1991 IEEE J.Quant.Electron. 27 1262
[10] Jin Y, Pan B L, Chen G, Chen K, Yao Z X 2004 Acta Phys. Sin. 53 1799 (in Chinese) [金 毅、潘佰良、陈 钢、陈 坤、姚志欣 2004 53 1799]
[11] Chen L, Mao B N, Wang Y B, Wang L M, Pan B L 2007 Acta Phys. Sin. 56 6976 (in Chinese) [陈 立、毛邦宁、王煜博、王丽敏、潘佰良 2007 56 6979]
[12] Ding C L, Wan C Y 2006 Acta Phys. Sin. 55 1165 (in Chinese) [丁长林、万重怡 2006 55 1165]
[13] Cheng C 2003 Acta Phys. Sin. 52 3068 (in Chinese) [程 成 2003 52 3068]
[14] Yuryshev N N 1998 Quant. Electron. 28 397
[15] Zhuang Q, Sang F T, Zhou D Z 1997 Short Wavelength Chemical Laser (Beijing: National Defence Industrial Press) p178 (in Chinese) [庄 琦、桑凤亭、周大正 1997 短波长化学激光 (北京:国防工业出版社) 第178页]
[16] Carroll D L 1995 AIAA Journal 33 1454
[17] Fan A F, Gao Z 1993 Acta Phys. Sin. 42 407 (in Chinese) [范安辅、高 智 1993 42 407]
[18] Gao Z 1981 Acta Phys. Sin. 30 1591 (in Chinese) [高 智 1981 30 1591]
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[1] Wani F, Nakabayashi T, Hayakawa A 2002 Proc. SPIE 4631 128
[2] Yuryshev N N 1991 Proc. SPIE 1397 221
[3] Zhang R Y, Chen F, Sang F T, Min X D, Shao M Y 1989 Proc. SPIE 1031 308
[4] Li G F, Yu H J, Duo L P, Jin Y Q 2009 Chin. Phys. Lett. 26 114201
[5] Vagin N P, Pazyuk V S, Yuryshev N N 1995 Quant. Electron. 25 746
[6] Vagin N P, Yuryshev N N 2001 Quant. Electron. 31 127
[7] Matsuzaka F, Ohga T 1989 Proc.Int.Conf. "Lasers’89" 223
[8] Highland R, Crowell P, Hager G 1990 Proc. SPIE 1225 512
[9] Schmiedberger J, Kodymova J 1991 IEEE J.Quant.Electron. 27 1262
[10] Jin Y, Pan B L, Chen G, Chen K, Yao Z X 2004 Acta Phys. Sin. 53 1799 (in Chinese) [金 毅、潘佰良、陈 钢、陈 坤、姚志欣 2004 53 1799]
[11] Chen L, Mao B N, Wang Y B, Wang L M, Pan B L 2007 Acta Phys. Sin. 56 6976 (in Chinese) [陈 立、毛邦宁、王煜博、王丽敏、潘佰良 2007 56 6979]
[12] Ding C L, Wan C Y 2006 Acta Phys. Sin. 55 1165 (in Chinese) [丁长林、万重怡 2006 55 1165]
[13] Cheng C 2003 Acta Phys. Sin. 52 3068 (in Chinese) [程 成 2003 52 3068]
[14] Yuryshev N N 1998 Quant. Electron. 28 397
[15] Zhuang Q, Sang F T, Zhou D Z 1997 Short Wavelength Chemical Laser (Beijing: National Defence Industrial Press) p178 (in Chinese) [庄 琦、桑凤亭、周大正 1997 短波长化学激光 (北京:国防工业出版社) 第178页]
[16] Carroll D L 1995 AIAA Journal 33 1454
[17] Fan A F, Gao Z 1993 Acta Phys. Sin. 42 407 (in Chinese) [范安辅、高 智 1993 42 407]
[18] Gao Z 1981 Acta Phys. Sin. 30 1591 (in Chinese) [高 智 1981 30 1591]
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