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3000 W direct-pumping all-fiber laser based on domestically produced fiber

Wang Xue-Jiao Xiao Qi-Rong Yan Ping Chen Xiao Li Dan Du Cheng Mo Qi Yi Yong-Qing Pan Rong Gong Ma-Li

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3000 W direct-pumping all-fiber laser based on domestically produced fiber

Wang Xue-Jiao, Xiao Qi-Rong, Yan Ping, Chen Xiao, Li Dan, Du Cheng, Mo Qi, Yi Yong-Qing, Pan Rong, Gong Ma-Li
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  • In this paper we present an all-fiber directly pumped fiber laser in master oscillator power amplifier configuration based on domestically manufactured fibers. In the amplifier stage of the laser, the gain fibers adopt the 20/400 μm Yb-doped double cladding fibers manufactured separately by Wuhan Fiber Home Technologies Group and China Electronics Technology Group Corporation No. 46 Research Institute in two individual experiments. Via this homemade amplifier stage, the system achieves a 1080 nm fiber laser with output powers of 3050 W and 3092 W respectively with two types of fibers. When the gain fiber of the amplifier adopts the YDF manufactured by Wuhan Fiber Home Technologies Group, the corresponding extraction efficiency and the optical-to-optical efficiency reach 67.3% and 63.0% respectively. No residual pump laser is found in the spectrum of output laser, and the beam quality is measured to be M2<2. Similarly, when the gain fiber of the amplifier adopts the YDF manufactured by China Electronics Technology Group Corporation No. 46 Research Institute, the corresponding extraction efficiency and the optical-to-optical efficiency reach 68.2% and 63.9% respectively. To the best of our knowledge, this is the best result ever reported for directly pumped all-fiber laser. Meanwhile, as we use the domestically manufactured fiber as the gain fiber in the amplifier stage, the result verifies the usage of homemade active fibers in 3-kilowatt level fiber laser. By combining the results of the high power fiber laser, the low efficiency of domestic fiber laser in our experiment might be explained to be due to defects in fiber manufacturing process, the inhomogeneous refractive index of the core, structural flaw of the homemade fiber observed by the microscopic images of the cross section and the splicing fuse of homemade fibers. The main difficulty of these two experiments lies in the heat dissipation of the gain fiber in the amplifier stage. Also, due to the restriction of experimental condition, photodarkening test is unable to run for a longer period of time, which is the focus of our further work. Therefore, measures such as refining fiber manufacturing techniques, increasing pump power and optimizing the length of fiber are suggested to be taken in order to obtain a higher output power from homemade fiber laser.
    • Funds: Project supported by the National Natural Science Foundation of China (Grant No. 61307057) and the China Postdoctoral Science Foundation (Grant Nos. 2012M520258, 2013T60109).
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    He B, Zhou J, Lou Q H, Xue Y H, Li Z, Wang W, Dong J X, Wei Y R, Chen W B 2010 Microw. Opt. Techn. Let. 52 1668

    [14]

    Wang X L, Gong Z Q, Zhou P, Guo S F, Si L, Xu X J, Chen J B 2012 Chin. J. Lasers 39 0408007 (in Chinese) [王小林, 龚智群, 周朴, 郭少锋, 司磊, 许晓军, 陈金宝 2012 中国激光 39 0408007]

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    Yuan Y Y 2008 Ph. D. Dissertation (Beijing: Tsinghua University) (in Chinese) [袁艳阳 2008 博士学位论文(北京: 清华大学)]

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    Xiang P, Liang D 2008 J. Opt. Soc. Am. B 25 127

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    Gong M L, Yuan Y Y, Li C, Yan P, Zhang H T, Liao S Y 2007 Opt. Express 15 3236

  • [1]

    Cesar J, Jens L, Andreas T 2013 Nat. Photon. 7 861

    [2]

    Tao R M, Zhou P, Wang X L, Si L, Liu Z J 2014 Acta Phys. Sin. 63 085202 (in Chinese) [陶汝茂, 周朴, 王小林, 司磊, 刘泽金 2014 63 085202]

    [3]

    Stiles E 2009 Proceedings of the 5th International Workshop on Fiber Lasers

    [4]

    Jeong Y C, Boyland A J, Sahu J K, Chung S H, Nilsson J, Payne D N 2009 J. Opt. Soc. Korea 13 416

    [5]

    Samson B, Carter A, Tankala K 2011 Nat. Photon. 5 466

    [6]

    Langnera A, Sucha M, Schötza G, Justb F, Leichb M, Schwuchowb A, Grimmb St, Zimerc H, Kozakc M, Wedelc B, Rehmannd G, Bachertd C, Krause V 2012 Proc. SPIE 8237 82370F

    [7]

    Khitrov V, Minelly J D, Tumminelli R, Petit V, Pooler E S 2014 Proc. SPIE 8961 89610

    [8]

    Wirth C, Schmidt O, Kliner A, Schreiber T, Eberhardt R, Tünnermann A 2011 Opt. Lett. 36 3061

    [9]

    Yan P, Xiao Q R, Fu C, Wang Y P, Gong M L 2012 Chin. J. Lasers 39 0416001 (in Chinese) [闫平, 肖起榕, 付晨, 王亚平, 巩马理 2012 中国激光 39 0416001]

    [10]

    Liu Z J, Leng J Y, Guo S F, Wang W L, Huang L J, Cao J Q, Si L, Xu X J, Chen J B 2013 Chin. J. Lasers 40 0908003 (in Chinese) [刘泽金, 冷进勇, 郭少锋, 王文亮, 黄良金, 曹涧秋, 司磊, 许晓军, 陈金宝 2013 中国激光 40 0908003]

    [11]

    Fan Y Y, He B, Zhou J, Zheng J T, Liu H K, Wei Y R, Dong J X, Lou Q H 2011 Opt. Express 19 15162

    [12]

    Li C, Yan P, Chen G, Gong M L, Yuan Y Y 2006 Chin. J. Lasers 33 738 (in Chinese) [李晨, 闫平, 陈刚, 巩马理, 袁艳阳 2006 中国激光 33 738]

    [13]

    He B, Zhou J, Lou Q H, Xue Y H, Li Z, Wang W, Dong J X, Wei Y R, Chen W B 2010 Microw. Opt. Techn. Let. 52 1668

    [14]

    Wang X L, Gong Z Q, Zhou P, Guo S F, Si L, Xu X J, Chen J B 2012 Chin. J. Lasers 39 0408007 (in Chinese) [王小林, 龚智群, 周朴, 郭少锋, 司磊, 许晓军, 陈金宝 2012 中国激光 39 0408007]

    [15]

    Yuan Y Y 2008 Ph. D. Dissertation (Beijing: Tsinghua University) (in Chinese) [袁艳阳 2008 博士学位论文(北京: 清华大学)]

    [16]

    Xiang P, Liang D 2008 J. Opt. Soc. Am. B 25 127

    [17]

    Kelson I, Hardy A A1998 IEEE J. Quantum Elect. 34 1570

    [18]

    Gong M L, Yuan Y Y, Li C, Yan P, Zhang H T, Liao S Y 2007 Opt. Express 15 3236

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Publishing process
  • Received Date:  02 December 2014
  • Accepted Date:  12 March 2015
  • Published Online:  05 August 2015

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