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A Gires-Tournois mirror for dispersion compensation in the Ti-sapphire laser system

Zhang Qing Ye Peng Wei Zhi-Yi Ma Qun Zhang Yue-Guang Shen Wei-Dong Luo Zhen-Yue Zhang Shu-Na Yuan Wen-Jia Liu Xu

A Gires-Tournois mirror for dispersion compensation in the Ti-sapphire laser system

Zhang Qing, Ye Peng, Wei Zhi-Yi, Ma Qun, Zhang Yue-Guang, Shen Wei-Dong, Luo Zhen-Yue, Zhang Shu-Na, Yuan Wen-Jia, Liu Xu
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  • A Gires-Tournois(GT) mirror with a group delay dispersion (GDD) of -60 fs2 in one reflection was designed according to the requirement of dispersion compensation in the Ti-sapphire femtosecond laser system. It was manufactured by ion assisted deposition combined with the optical monitoring in transmission. The reflectance of the mirror was measured by a spectrophometer working in the range from 650 nm to 950 nm with a resolution of 1 nm. The results were consistent with the design. Furthermore, a home-made white light interferometry system was employed to test the reflection GDD and the result also agreed well with the design. The experimental GDD oscillation was less than ± 20 fs2. The GT mirror was applied in the Ti-sapphire femtosecond laser system and a good clamping result was obtained. Finally a 29 fs ultra-short pulse was acquired.
    • Funds:
    [1]

    www.layertec.de

    [2]

    Cao S Y, Zhang Z G, Chai L, Wang Q Y 2008 Acta Phys. Sin. 57 2971 (in Chinese) [曹士英、张志刚、柴 路、王清月 2008 物理学报 57 2971]

    [3]

    Wang Y L, Zhou X G, Wu H, Ding L E 2009 Chin. Phys. B 18 4308

    [4]

    Zhao Y Y, Han H N, Teng H, Wei Z Y 2009 Acta Phys. Sin. 58 1709(in Chinese)[赵研英、韩海年、滕 浩、魏志义 2009 物理学报 58 1709]

    [5]

    Szipcs R, Koházi-Kis A 1997 Appl.phys.B 65 115

    [6]

    Steinmeyer G 2006 Appl.Opt. 45 1490

    [7]

    Tian J R, Han H N, Zhao Y Y, Wang P, Zhang W, Wei Z Y 2006 Acta Phys. Sin. 55 4725 (in Chinese) [田金荣、韩海年、赵研英、王 鹏、张 炜、魏志义 2006 物理学报 55 4725]

    [8]

    Szipcs R, Ferencz K, Splielmann C, Krausz F 1994 Opt.Lett. 19 203

    [9]

    Luo Z Y, Liu X, Shen W D, Xue H, Zhang Y G, Gu P F 2009 Acta Opt. Sin. 9 2619(in Chinese) [罗震岳、刘 旭、沈伟东、薛 晖、章岳光、顾培夫 2009 光学学报 9 2619]

    [10]

    Luo Z Y, Shen W D, Liu X, Gu P F, Xia C 2010 Chin. Opt. Lett. 3 342 (in Chinese)[罗震岳、沈伟东、刘 旭、顾培夫、夏 梣 2010 中国光学快报 3 342]

    [11]

    Pervak V, Tikhonravov V, Trubetskov M K, Naumov S, Krausz F, Apolonski A 2007 Appl. Phys. B 87 5

    [12]

    Szipcs R, Koházi-Kis A, Lakó S, Apai P, Kovács A P, DeBell G, Mott L, Louderback A W, Tikhonravov A V, Trubetskov M K 2000 Appl. Phys. B 70 S51

    [13]

    Xie X D, Wang Q Y, Wang Z, Zhang W L, Chai L 2005 Acta Phys. Sin. 54 3159(in Chinese)[谢旭东、王清月、王 专、张伟力、柴 路 2005 物理学报 54 3159]

    [14]

    Tikhonov A N, Tikhonravov A V, Trubetskov M K 1993 Comp. Maths. Math. Phys. 33 1339

    [15]

    Tikhonravov A V, Trubetskov M K, DeBell G W 1996 Appl. Opt. 35 5493

    [16]

    Bischoff M, Stenzel O, Gbler D, Kaiser N 2005 Proc. SPIE 5963 59631N-1

    [17]

    Tang J F,Gu P F,Liu X,Li H F 2006 Modern Optical Thin Film Technology (Hangzhou:Zhejiang University Press)p262(in Chinese)[唐晋发、顾培夫、刘 旭、李海峰 2006 现代光学薄膜技术(杭州:浙江大学出版社)第262页]

    [18]

    Xue H, Shen W D, Gu P F, Luo Z Y, Zhang Y G, Liu X 2009 Chin. Opt. Lett. 7 446 (in Chinese)[薛 晖、沈伟东、顾培夫、罗震岳、章岳光、刘 旭 2009 中国光学快报 7 446 ]

    [19]
  • [1]

    www.layertec.de

    [2]

    Cao S Y, Zhang Z G, Chai L, Wang Q Y 2008 Acta Phys. Sin. 57 2971 (in Chinese) [曹士英、张志刚、柴 路、王清月 2008 物理学报 57 2971]

    [3]

    Wang Y L, Zhou X G, Wu H, Ding L E 2009 Chin. Phys. B 18 4308

    [4]

    Zhao Y Y, Han H N, Teng H, Wei Z Y 2009 Acta Phys. Sin. 58 1709(in Chinese)[赵研英、韩海年、滕 浩、魏志义 2009 物理学报 58 1709]

    [5]

    Szipcs R, Koházi-Kis A 1997 Appl.phys.B 65 115

    [6]

    Steinmeyer G 2006 Appl.Opt. 45 1490

    [7]

    Tian J R, Han H N, Zhao Y Y, Wang P, Zhang W, Wei Z Y 2006 Acta Phys. Sin. 55 4725 (in Chinese) [田金荣、韩海年、赵研英、王 鹏、张 炜、魏志义 2006 物理学报 55 4725]

    [8]

    Szipcs R, Ferencz K, Splielmann C, Krausz F 1994 Opt.Lett. 19 203

    [9]

    Luo Z Y, Liu X, Shen W D, Xue H, Zhang Y G, Gu P F 2009 Acta Opt. Sin. 9 2619(in Chinese) [罗震岳、刘 旭、沈伟东、薛 晖、章岳光、顾培夫 2009 光学学报 9 2619]

    [10]

    Luo Z Y, Shen W D, Liu X, Gu P F, Xia C 2010 Chin. Opt. Lett. 3 342 (in Chinese)[罗震岳、沈伟东、刘 旭、顾培夫、夏 梣 2010 中国光学快报 3 342]

    [11]

    Pervak V, Tikhonravov V, Trubetskov M K, Naumov S, Krausz F, Apolonski A 2007 Appl. Phys. B 87 5

    [12]

    Szipcs R, Koházi-Kis A, Lakó S, Apai P, Kovács A P, DeBell G, Mott L, Louderback A W, Tikhonravov A V, Trubetskov M K 2000 Appl. Phys. B 70 S51

    [13]

    Xie X D, Wang Q Y, Wang Z, Zhang W L, Chai L 2005 Acta Phys. Sin. 54 3159(in Chinese)[谢旭东、王清月、王 专、张伟力、柴 路 2005 物理学报 54 3159]

    [14]

    Tikhonov A N, Tikhonravov A V, Trubetskov M K 1993 Comp. Maths. Math. Phys. 33 1339

    [15]

    Tikhonravov A V, Trubetskov M K, DeBell G W 1996 Appl. Opt. 35 5493

    [16]

    Bischoff M, Stenzel O, Gbler D, Kaiser N 2005 Proc. SPIE 5963 59631N-1

    [17]

    Tang J F,Gu P F,Liu X,Li H F 2006 Modern Optical Thin Film Technology (Hangzhou:Zhejiang University Press)p262(in Chinese)[唐晋发、顾培夫、刘 旭、李海峰 2006 现代光学薄膜技术(杭州:浙江大学出版社)第262页]

    [18]

    Xue H, Shen W D, Gu P F, Luo Z Y, Zhang Y G, Liu X 2009 Chin. Opt. Lett. 7 446 (in Chinese)[薛 晖、沈伟东、顾培夫、罗震岳、章岳光、刘 旭 2009 中国光学快报 7 446 ]

    [19]
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    [2] Tan Zhong-Wei, Cao Ji-Hong, Chen Yong, Liu Yan, Ning Ti-Gang, Jian Shui-Sheng. Multi-wavelength dispersion compensator based on fiber gratings with low crosstalk. Acta Physica Sinica, 2007, 56(1): 274-279. doi: 10.7498/aps.56.274
    [3] Zhong Dong-Zhou, She Wei-Long. Linear electro-optic effect of ultrashort laser pulses in LiNbO3 crystal and its dispersion compensation. Acta Physica Sinica, 2012, 61(6): 064214. doi: 10.7498/aps.61.064214
    [4] Tan Zhong-Wei, Zheng Kai, Liu Yan, Fu Yong-Jun, Chen Yong, Cao Ji-Hong, Ning Ti-Gang, Dong Xiao-Wei, Ma Li-Na, Jian Shui-Sheng. Application of dispersion compensator based on chirped fiber gratings in ultra long-hual DWDM system. Acta Physica Sinica, 2005, 54(11): 5218-5223. doi: 10.7498/aps.54.5218
    [5] Wang Yan-Zhi, Shao Jian-Da, Dong Hong-Cheng, Jin Yun-Xia, He Hong-Bo, Yi Kui, Fan Zheng-Xiu, Song You-Jian, Wang Si-Jia, Hu Ming-Lie, Chai Lu, Wang Qing-Yue. Design and manufacture of high dispersion mirror. Acta Physica Sinica, 2011, 60(11): 117801. doi: 10.7498/aps.60.117801
    [6] Chen Li-Bao, Yu Hong-Chun, Xu Chun-Mei, Wang Tai-Hong. Investigation of Si film anode prepared by ion beam assisted deposition. Acta Physica Sinica, 2009, 58(7): 5029-5034. doi: 10.7498/aps.58.5029
    [7] ZHANG ZHI-GANG, SUN HONG. CALCULATION AND EVALUATION OF DISPERSIONS IN A FEMTOSECOND PULSE AMPLIFICATION SYSTEM. Acta Physica Sinica, 2001, 50(6): 1080-1086. doi: 10.7498/aps.50.1080
    [8] Wang Nan, Ruan Shuang-Chen. Analytical algorithem of stretcher dispersion in chirp pulse amplification laser system. Acta Physica Sinica, 2020, 69(2): 024201. doi: 10.7498/aps.69.20191587
    [9] Cai Lu, Wang Qing-Yue, Zhang Zhi-Gang, Liu Yong-Jun. . Acta Physica Sinica, 2002, 51(6): 1291-1294. doi: 10.7498/aps.51.1291
    [10] Kai Hua, Li Yun-Chao, Guo De-Cheng, Li Shuang, Li Zhi-Jie. Molecular dynamics simulation of the structure characteristic of diamond-like carbon films influence by oblique incidence ion-beam-assisted deposition. Acta Physica Sinica, 2009, 58(7): 4888-4894. doi: 10.7498/aps.58.4888
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  • Received Date:  14 April 2010
  • Accepted Date:  04 May 2010
  • Published Online:  15 February 2011

A Gires-Tournois mirror for dispersion compensation in the Ti-sapphire laser system

  • 1. (1)Laboratory of Optical Physics,Institute of Physics, Chinese Academy of Sciences, Beijing 100190,China; (2)State Key Laboratory of Modern Optical Instrumentation, Zhejiang University, Hangzhou 310027,China

Abstract: A Gires-Tournois(GT) mirror with a group delay dispersion (GDD) of -60 fs2 in one reflection was designed according to the requirement of dispersion compensation in the Ti-sapphire femtosecond laser system. It was manufactured by ion assisted deposition combined with the optical monitoring in transmission. The reflectance of the mirror was measured by a spectrophometer working in the range from 650 nm to 950 nm with a resolution of 1 nm. The results were consistent with the design. Furthermore, a home-made white light interferometry system was employed to test the reflection GDD and the result also agreed well with the design. The experimental GDD oscillation was less than ± 20 fs2. The GT mirror was applied in the Ti-sapphire femtosecond laser system and a good clamping result was obtained. Finally a 29 fs ultra-short pulse was acquired.

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