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Chinese Journal of Lasers, Volume. 39, Issue 7, 702004(2012)

LD-Pumped Passively Q-Switched c-cut Nd:YVO4 Self-Raman Laser with Cr4+:YAG

Liu Yongna1、*, Jiang Feihong2, Wang Shumei1, Wang Meiqin1, Xi Kun1, and Ding Shuanghong1
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    [1] [1] Y. F. Chen. Efficient subnanosecond diode-pumped passively Q-switched Nd:YVO4 self-stimulated Raman laser[J]. Opt. Lett., 2004, 29(11): 1251~1253

    [2] [2] Hiroshi Sakai, Hirohumi Kan, Takunori Taira. >1 MW peak power single-mode high-brightness passively Q-switched Nd3+YAG microchip laser[J]. Opt. Express., 2008, 16(24): 19891~19899

    [3] [3] Y. F. Chen, M. L. Ku, L. Y. Tsai et al.. Diode-pumped passively Q-switched picosecond NdGdxY1-xVO4 self-stimulated Raman laser[J]. Opt. Lett., 2004, 29(19): 2279~2281

    [4] [4] Y. F. Chen. Compact efficient self-frequency Raman conversion in diode-pumped passively Q-switched NdGdVO4 laser[J]. Appl. Phys. B., 2004, 78: 685~687

    [5] [5] Zheng Quan, Zhao Ling, Shao Yonghong et al.. Cr:YAG passively Q-switched all-solid-state blue laser at 473 nm[J]. Chinese J. Lasers, 2003, 30(8): 673~676

    [6] [6] A. A. Kmainskii, K. I. Ueda, H. J. Eichler et al.. Tetragonal vanadates YVO4 and GdVO4new effieient χ(3)-materials for Raman lasers[J]. Opt. Commun., 2001, 194(1-3): 201~206

    [7] [7] Y. F. Chen. High-power diode-pumped actively Q-switched Nd:YVO4 self-Raman laser: influence of dopant concentration[J]. Opt. Lett., 2004, 29(16): 1915~1917

    [8] [8] X. H. Chen, X. Y. Zhang, Q. P. Wang et al.. Diode-pumped actively Q-switched c-cut Nd:YVO4 self-Raman laser[J]. Laser. Phys. Lett., 2009, 6(1): 26~29

    [9] [9] Fufang Su, Xingyu Zhang, Qingpu Wang et al.. Diode pumped actively Q-switched Nd:YVO4 self-Raman laser[J]. J. Phys. D: Appl. Phys., 2006, 39(10): 2090~2093

    [10] [10] Z. C. Wang, C. L. Du, S. C. Ruan et al.. LD-pumped Q-switched Nd:YVO4 self-Raman laser[J]. Laser. Phys., 2010, 20(2): 474~477

    [11] [11] C. L. Du, L. Zhang, Y. Q. Yu et al.. 3.1 W laser-diode-end-pumped composite Nd:YVO4 self-Raman laser at 1176 nm[J]. Appl. Phys. B., 2010, 101: 743~746

    [12] [12] Jia Peng, Zhang Xingyu, Wang Qingpu et al.. Laser diode-pumped Nd:YVO4 self-stimulated Raman laser[J]. Chinese J. Lasers, 2006, 33(10): 1309~1313

    [13] [13] T. Omatsu, A. Lee, H. M. Pask et al.. Passively Q-switched yellow laser formed by a self-Raman composite Nd:YVO4/YVO4 crystal[J]. Appl. Phys. B., 2009, 97: 799~804

    [14] [14] Martin A. Jaspan, David Welford, Jeffrey A. Russell. Passively Q-switched microlaser performance in the presence of pump-induced bleaching of the saturable absorber[J]. Appl. Opt., 2004, 43(12): 2555~2560

    [15] [15] Shuanghong Ding, Xingyu Zhang, Qingpu Wang et al.. Numerical modelling of passively Q-switched intracavity Raman lasers[J]. J. Phys. D: Appl. Phys., 2007, 40: 2736~2747

    [16] [16] Zhang Xingyu, Zhao Shengzhi, Wang Qingpu et al.. Theoretical and experiment study of Cr4+:YAG Q-switching characteristics[J]. Acta Optica Sinica, 1998, 18(9): 1180~1185

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    [3] Jia Haixu, Ding Shuanghong, Liu Jiajia, Ding Ze. Laser-Diode-Pumped Cr4+:YAG Passively Q-Switched Intracavity PbWO4 Mode-Locked Raman Laser[J]. Chinese Journal of Lasers, 2014, 41(10): 1002007

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    Liu Yongna, Jiang Feihong, Wang Shumei, Wang Meiqin, Xi Kun, Ding Shuanghong. LD-Pumped Passively Q-Switched c-cut Nd:YVO4 Self-Raman Laser with Cr4+:YAG[J]. Chinese Journal of Lasers, 2012, 39(7): 702004

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    Paper Information

    Category: Laser physics

    Received: Feb. 22, 2012

    Accepted: --

    Published Online: May. 24, 2012

    The Author Email: Yongna Liu (yongnaliu@126.com)

    DOI:10.3788/cjl201239.0702004

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology