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Chinese Journal of Lasers, Volume. 42, Issue 11, 1102002(2015)

A Compact and Highly Efficient Intracavity Frequency-DoubledGreen Laser Based on Periodically Poled Lithium Niobate

Gui Shixin1、*, Chang Jianhua1,2,3, Yan Na1, Guo Yue1, and Wu Yu1
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  • 1[in Chinese]
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    [1] [1] Gan Yi, Lu Yang, Xu Changqing, et al.. 38.5% optical- to- optical efficiency neodymium- doped yttrium vanadate/magnesiumoxide-doped periodically poled lithium niobate integrated green module with watt-level output power for laser display applications[J]. Optical review, 2012, 19(6): 409-411.

    [2] [2] Maiwald M, Schwertfeger S, Güther R, et al.. 600 mW optical output power at 488 nm by use of a high-power hybrid laser diode system and a periodically poled MgO∶LiNbO3 bulk crystal[J]. Optics Letters, 2006, 31(6): 802-804.

    [3] [3] Nakamura S. GaN-based blue/green semiconductor laser[J]. IEEE Journal of Selected Topics in Quantum Electronics, 1997, 3(2):435-442.

    [4] [4] Khan A. Semiconductor photonics: Laser diodes go green[J]. Nature Photonics, 2009, 3(8): 432-434.

    [5] [5] Wang Fengjuan, Liu Zhe, Xu Bin, et al.. Blue laser diode pumped Pr3 +∶YLF visible lasers[J]. Chinese J Lasers, 2013, 40(12):1202002.

    [6] [6] Fu Weijia, Yu Jian, Kang Yuzhuo, et al.. 13 mW-continuous-wave green light output by quasi-phase-matched frequency doubling in periodically poled KTP[J]. Acta Optica Sinica, 2007, 27(6): 1063-1066.

    [7] [7] Hao Liyun, Su Cen, Qi Yunfeng, et al.. Second harmonic generation characteristics of continuous wave all-fiber laser oscillator in PPMgO∶LN[J]. Chinese J Lasers, 2013, 40(6): 0602007.

    [8] [8] Singh A, Mukhopadhyay P K, Sharma S K, et al.. 82 W continuous-wave green beam generation by intracavity frequency doubling of diode-side-pumped Nd∶YAG Laser[J]. IEEE Journal of Quantum Electronics, 2011, 47(3): 398-405.

    [9] [9] Yan Boxia, Bi Yong, Wang Dongdong, el al.. Compact and highly efficient 3.8 W intracavity frequency-doubled Nd∶YVO4/PPMgOLN green laser[J]. Chinese J Lasers, 2011, 38(3): 0602007.

    [10] [10] Fejer M M, Magel G A, Jundt D H, et al.. Quasi- phase- matched second harmonic generation: tuning and tolerances[J]. IEEE Journal of Quantum Electronics, 1992, 28(11): 2631-2654.

    [11] [11] Jundt D H. Temperature- dependent Sellmeier equation for the index of refraction, ne, in congruent lithium niobate[J]. Optics Letters, 1997, 22(20): 1553-1555.

    [12] [12] Innocenzi M E, Yura H T, Fincher C L, et al.. Thermal modeling of continuous-wave end-pumped solid-state lasers[J]. Applied Physics Letters, 1990, (56): 1831-1833.

    [13] [13] Zhou Bingkun, Gao Yizhi, Chen Tirong, et al.. Principles of Lasers[M]. Beingjing: National Defence Industry Press, 2000.

    [14] [14] Ji Feng, Yao Jianquan, Zhang Baigang, el al.. 2.1 W continuous wave green light output by first order quasi phase matched intracavity second harmonic generation[J]. Chinese J Lasers, 2006, 33(10): 1314-1318.

    [15] [15] Greenstein S, Rosenbluh M. Dynamics of cw intra-cavity second harmonic generation by PPKTP[J]. Optics Communications, 2004, 238(4): 319-327.

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    Gui Shixin, Chang Jianhua, Yan Na, Guo Yue, Wu Yu. A Compact and Highly Efficient Intracavity Frequency-DoubledGreen Laser Based on Periodically Poled Lithium Niobate[J]. Chinese Journal of Lasers, 2015, 42(11): 1102002

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    Paper Information

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    Received: Apr. 24, 2015

    Accepted: --

    Published Online: Sep. 24, 2022

    The Author Email: Shixin Gui (guishixin0001@163.com)

    DOI:10.3788/cjl201542.1102002

    Topics

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