期刊文献+

高亮度1018nm光纤激光实验研究 被引量:6

Experimental Study on High Brightness 1018 nm Ytterbium Doped Fiber Laser
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摘要 搭建了1018 nm全光纤激光系统,实验研究了增益光纤长度、光纤布拉格光栅的反射率以及增益光纤的芯包比等参数对1018 nm激光性能的影响。实验研究表明:对于双包层掺镱光纤,可通过减小增益光纤长度使短波长激光获得更大增益,进而实现1018 nm激光输出;通过增加低反布拉格光栅反射率和增益光纤芯包比可以更好地抑制自发辐射以及提升激光器的效率。基于15/130μm的国产双包层掺镱光纤,在1018 nm波段获得了大于150W的激光输出,光光转换效率为71%,自发辐射得到了有效的抑制。 High power 1018 nm ytterbium doped fiber laser system is constructed. Output characteristics of 1018 nm laser with the length of gain fiber, the reflectivity of fiber Bragg gratings (FBG) and the diameter of core/cladding are experimentally investigated. It is found that the laser at short wavelength will get bigger gain by reducing the length of gain fiber for ytterbium doped fiber laser, 1018 nm laser can be obtained by shortening the length of gain fiber. Increasing the fiber bragg grating reflectivity and core/cladding area ratio are available approach to suppress the amplified spontaneous emission (ASE) gain and increase the laser efficient. A record output power more than 150 W at 1018 nm is obtained through using the domestic double cladding ytterbium doped fiber, with an optical- optical conversion efficiency of 71% , the ASE is suppressed efficiently.
出处 《中国激光》 EI CAS CSCD 北大核心 2015年第1期69-73,共5页 Chinese Journal of Lasers
关键词 激光器 光纤激光器 1018 NM 双包层掺镱光纤 同带抽运 lasers fiber laser 1018 nm doubt cladding ytterbium doped fiber tandem pumping
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参考文献14

  • 1Dominic V, MaeCormack S, Waarts R, et al.. 110 W fibre laser[J]. Electron Lett, 1999, 35(14): 1158-1160.
  • 2Limpert J, Liem A, Zellmer H, et aL. 500 W continuous-wave fibre laser with excellent beam quality[J]. Electron Lett, 2003, 39(8) 645-647.
  • 3Jeong Y, Sahu J K, Payne D N, et al.. Ytterbium-doped large-core fiber laser with 1.36 kW continuous-wave output power[J]. Opt Express, 2004, 12(25): 6088-6092.
  • 4Horley R, Norman S, Zervas M N. Progress and development in fibre laser technology[C]. SPIE, 2007, 6738: 67380K.
  • 5楼祺洪,何兵,薛宇豪,周军,董景星,魏运荣,王炜,李震,漆云凤,杜松涛,赵宏明,陈卫标.1.75kW国产掺Yb双包层光纤激光器[J].中国激光,2009,36(5):1277-1277. 被引量:31
  • 6Jeong Y, Alexander J B, Jayanta K S, et al.. Multi-kilowatt single-mode ytterbium-doped large-core fiber laser[J]. J Opt Soc Korea, 2009, 13(4): 416-422.
  • 7Christian W, Oliver S, Igor T, et al.. High average power spectral beam combining of four fiber amplifiers to 8.2 kW[J]. Opt Lett, 2011, 36(16): 3118-3120.
  • 8闫平,肖起榕,付晨,王亚平,巩马理.1.6kW全光纤掺镱激光器[J].中国激光,2012,39(4):218-218. 被引量:19
  • 9代守军,何兵,周军,赵纯,陈晓龙,刘驰.1.5kW近单模全光纤激光器[J].中国激光,2013,40(7):1-6. 被引量:20
  • 10O'Connor M, Gapontsev V, Fomin V, et al.. Power scaling of SM fiber lasers toward 10 kW[C]. Conference on Lasers and Electro- Optics/International Quantum Electronics Con-ference, 2009 CThA3.

二级参考文献26

  • 1Pask H M, Archambault J L, Hanna D C, Reekie L, Russell P S J, Townsend J E, Tropper A C 1994 Electron. Lett. 30 863.
  • 2Zellemer H, Willamowski U, Tiinnermann A, Welling H 1995 Opt. Lett. 20 578.
  • 3Zellmer H, Tunnermann A, Welling H, Reichel V 1997 OpticalAmpli- tiers and Their Applications (OAA) Victoria, Canada, July 21, 1997.
  • 4Dominic V, MacCormack S, Waarts R, Sanders S, Bicknese S, Dohle R, Wolak E, Yeh P S, Zucke E 1999 Electron. Lett. 35 1158.
  • 5Jeong Y, Sahu J K, Payne D N, Nilsson J .2004 Opt. Exp. 12 6088.
  • 6Richardson D, Nilsson J, Clarkson W .2010. J. Opt. Soc. Am. B 27 63.
  • 7肖虎,冷进勇,吴武明,王小林,马阎星,周朴,许晓军,赵国民.2011.物理学报,611124207.
  • 8Li Z, Zhou J, He B, Wei Y R, Dong J X, Lou Q H .2011. Chin. Opt. Lett. 9 091401.
  • 9刘泽金,肖虎,周朴,王小林,陈金宝.2012.中国激光,390305009.
  • 10Zou X L, Toratani H 1995 Phys. Rev. B 52 889.

共引文献57

同被引文献53

  • 1黄小军,彭翰生,魏晓峰,王晓东,曾小明,周凯南,郭仪,刘兰琴,王逍,朱启华,林东晖,唐晓东,张小民,楚晓亮,王清月.100 TW级超短超强钛宝石激光装置[J].强激光与粒子束,2005,17(11):1685-1688. 被引量:15
  • 2楼祺洪,周军,朱健强,王之江.高功率光纤激光器研究进展[J].红外与激光工程,2006,35(2):135-138. 被引量:69
  • 3周军,楼祺洪,朱健强,何兵,董景星,魏运荣,张芳沛,李进延,李诗愈,赵宏明,王之江.采用国产大模场面积双包层光纤的714W连续光纤激光器[J].光学学报,2006,26(7):1119-1120. 被引量:53
  • 4K Tamura, E Ippen, H Hau, et al.. 77-fs pulse generation from a stretched-pulse mode-locked all-fiber ring laser[J]. Opt Lett, 1993, 18(13): 1080-1082.
  • 5D Ma, Y Cai, C Zhou, et al.. 37.4 fs pulse generation in an Er: fiber laser at 225 MHZ repetition rate[J]. Opt Lett, 2010, 35(17) 2858-2860.
  • 6L E Nelson, S B Fleischer, G Lenz, et al.. Efficient frequency doubling of a femtosecond fiber laser[J]. Opt Lett, 1996, 21(21) 1759-1761.
  • 7M A Arbore, M M Fejer. Frequency doubling of femtosecond erbium-fiber soliton lasers in periodically poled lithium niobate [J]. Opt Lett, 1997, 22(1): 13-15.
  • 8N E Yu, J H Ro, M Cha, et al.. Broadband quasi-phase-matched second-harmonic generation in MgO-doped periodically poled LiNbO3 at the communications band[J]. Opt Lett, 2002, 27(12): 1046-1048.
  • 9N E Yu, S Kurimura, K Kitamura, et al.. Efficient frequency doubling of a femtosecond pulse with simultaneous group- velocity matching and quasi phase matching in periodically poled, MgO-doped lithium niobate[J]. Appl Phys Lett, 2003, 82 (20): 3388-3390.
  • 10N E Yu, S Kurimura, K Kitamura, et al.. Efficient second-harmonic generation of ultrafast pulses in periodically poled KNbO3 [J]. Appl Phys Lett, 2004, 85(24): 5839-5841.

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二级引证文献39

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