A 100-TW Ti:Sapphire Laser System at a Repetition Rate of 0.1 Hz
TENG Hao1, MA Jing-Long1, WANG Zhao-Hua1, ZHENG Yi1, GE Xu-Lei1, ZHANG Wei1, WEI Zhi-Yi1**, LI Yu-Tong1, ZHANG Jie1,2
1Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190 2Department of Physics, Shanghai Jiao Tong University, Shanghai 200240
A 100-TW Ti:Sapphire Laser System at a Repetition Rate of 0.1 Hz
TENG Hao1, MA Jing-Long1, WANG Zhao-Hua1, ZHENG Yi1, GE Xu-Lei1, ZHANG Wei1, WEI Zhi-Yi1**, LI Yu-Tong1, ZHANG Jie1,2
1Beijing National Laboratory for Condensed Matter Physics, Institute of Physics, Chinese Academy of Sciences, Beijing 100190 2Department of Physics, Shanghai Jiao Tong University, Shanghai 200240
摘要We demonstrate a 100-TW-class femtosecond Ti:sapphire laser running at a repetition rate of 0.1 Hz based on a 20 TW/10 Hz laser facility (XL-II). Pumping the new stage amplifier with a 25J green Nd:glass laser, we successfully improve the laser energy to 3.4 J with duration of 29 fs, corresponding to a peak power of 117 TW.
Abstract:We demonstrate a 100-TW-class femtosecond Ti:sapphire laser running at a repetition rate of 0.1 Hz based on a 20 TW/10 Hz laser facility (XL-II). Pumping the new stage amplifier with a 25J green Nd:glass laser, we successfully improve the laser energy to 3.4 J with duration of 29 fs, corresponding to a peak power of 117 TW.
(Doped-insulator lasers and other solid state lasers)
引用本文:
TENG Hao;MA Jing-Long;WANG Zhao-Hua;ZHENG Yi;GE Xu-Lei;ZHANG Wei;WEI Zhi-Yi**;LI Yu-Tong;ZHANG Jie;. A 100-TW Ti:Sapphire Laser System at a Repetition Rate of 0.1 Hz[J]. 中国物理快报, 2012, 29(1): 14209-014209.
TENG Hao, MA Jing-Long, WANG Zhao-Hua, ZHENG Yi, GE Xu-Lei, ZHANG Wei, WEI Zhi-Yi**, LI Yu-Tong, ZHANG Jie,. A 100-TW Ti:Sapphire Laser System at a Repetition Rate of 0.1 Hz. Chin. Phys. Lett., 2012, 29(1): 14209-014209.
[1] Strickland D and Mourou G 1985 Opt. Commun. 56 219
[2] Perry M D, Pennington D, Stuart B C, Tietbohl G, Britten J A, Brown C, Herman S, Golick B, Kartz M, Miller J, Powell H T, Vergino M and Yanovsky V 1999 Opt. Lett. 24 160
[3] Gaul E, Martinez M, Blakeney J, Jochmann A, Ringuette M, Hammond D, Escamilla R, Henderson W, Borger T, Ditmire T 2008 International Conference on Ultrahigh Intensity Lasers (Tongli, China 27–31 October 2008) p 3
[4] Aoyama M, Yamakawa K, Akahane Y, Ma J, Inoue N, Ueda H and Kiriyama H 2003 Opt. Lett. 28 1594
[5] Wang Z H, Liu C, Shen Z W, Zhang Q, Teng H and Wei Z Y 2010 Opt. Lett. 36 3194
[6] Sung J H, Lee S K, Yu T J, Jeong T M and Lee J M 2010 Opt. Lett. 35 3021
[7] Mourou G, Tajima T and Bulanov S V 2006 Rev. Mod. Phys. 78 309
[8] Wei Z Y, Wang Z H, Ling W J, Wang P, Zhang J, Suzuki M, Kuroda H 2004 IOP Conf. 186 685
[9] Peng H S, Huang X J, Zhu Q H, Wang X D, Zhou K N, Wei X F, Zeng X M, Liu L Q, Wang X, Guo Y, Lin D H, Xu B, Xu L B, Chu X L and Zhang X M 2006 Laser Phys. 16 244
[10] Liang X Y, Leng Y X, Lin L H, Lu H H, Wang W Y, Jiang Y H, Shuai B, Peng H L, Zhao B Z, Wang C, Zhang W Q, Zhang Z Q, Li R X and Xu Z Z 2006 Opt. Lasers Engin. 44 130
[11] Wei Z Y, Wang Z H, Wang P, Ling W J, Zhu J F, Han H N, and Zhang J 2008 J. Phys.: Conf. Ser. 112 032003
[12] Lozhkarev V V, Freidman G I, Ginzburg V N, Katin E V, Khazanov E A, Kirsanov A V, Luchinin G A, Malshakov A N, Martyanov M A, Palashov O V, Poteomkin A K, Sergeev A M, Shaykin A A and Yakovlev I V 2007 Laser Phys. Lett. 4 421
[13] Mourou G and Tajima T 2011 Science 331 41
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