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熔融侧面泵浦耦合器光纤夹角对耦合效率的影响 被引量:4

Influence of fused side-pump coupler fiber angle on coupling efficiency
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摘要 泵浦耦合器是高功率光纤激光器的关键无源光器件,其制作工艺是采用泵浦光纤和主光纤侧面熔融的方法,该方法可以保持主光纤中信号光的低插入损耗,但泵浦光纤和主光纤之间的夹角对耦合效率影响较大。为解决这一问题,根据熔融侧面泵浦耦合器的结构特点,建立了物理模型,推导出各光纤中光功率与夹角关系的方程组,进行了数值仿真和实验论证,结果是随着泵浦光纤和主光纤之间夹角的减小,耦合效率会逐渐增大,但存在临界值,NA值小的泵浦光纤耦合效率高且临界角大,NA为0.22的泵浦光纤,夹角小于9.7°时耦合效率最大值为96.9%,NA为0.15的泵浦光纤,夹角小于11.5°时耦合效率最大值为97.8%。 Pump coupler is the key passive optical device of the high‐power fiber laser .Its pro‐ducing process is the side‐fusing of the pump fiber and the main fiber .This producing process can keep the insertion loss of the main fiber low ,but the angle betw een the pump fiber and the main fiber has a great influence on the coupling efficiency .In order to solve this problem ,the theoretical model was established according to the structural characteristics of the fused side‐pump coupler .The equations of the power and the fiber angle were derived .The simulation re‐sults were obtained and were demonstrated by the experiments .The conclusions are as fol‐lows :the pump coupling efficiency gradually increases with the decrease of the fiber angle be‐tw een the pump fiber and the main fiber ,but the critical fiber angle exists .When the numeri‐cal aperture (NA) of the pump fiber is smaller ,the couple efficiency and the critical angle are larger .T he critical fiber angle is 9 .7 ° and the maximum coupling efficiency is 96 .9% w hen the pump fiber NA is 0 .22 .The critical fiber angle is 11 .5 ° and the maximum coupling efficiency is 97 .8% when the pump fiber NA is 0 .15 .The conclusions are instructive for the designs and the productions of the high‐power fiber coupler .
出处 《应用光学》 CAS CSCD 北大核心 2014年第6期1104-1108,共5页 Journal of Applied Optics
基金 国家科技重大专项(2010ZX04013-052)
关键词 光纤激光器 耦合器 侧面泵浦 光纤夹角 耦合效率 fiber laser coupler side-pump fiber angle coupling efficiency
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  • 1姚建铨,任广军,张强,王鹏.掺镱双包层光纤激光器及其泵浦耦合技术[J].激光杂志,2006(5):1-4. 被引量:17
  • 2钱祥忠.光纤瓦斯传感系统的研制[J].应用光学,2005,26(6):38-40. 被引量:2
  • 3欧攀,闫平,巩马理,张春熹.三点抽运的高功率双包层光纤激光器优化设计[J].激光技术,2007,31(1):57-60. 被引量:8
  • 4JEONG Y,SAHU J K,PAYNE D N,et al.Ytterbium-doped large-core fibre laser with 1kW of continuous-wave output power[J].Electron Lett,2004,40(8):470-471.
  • 5RIPIN D J,GOLDBERG L.High efficiency side-coupling of light into optical fibres usingimbedded V-grooves[J].Electron Lett,1995,31(25):2204-2205.
  • 6GOLDBERG L,COLE B,SNITZER E.V-groove side-pumped 1.5μm fibre amplifier[J].Electron Lett,1997,33(25):2127-2129.
  • 7WEBER T,LUTHY W,WEBER H P,et al.A longitudinaland side-pumped single transverse mode double-clad fiber laser with a special silicone coating[J].Opt Commum,1995,115(1/2):99-104.
  • 8KOPLOW J P,MOORE S W,KLINER A V.A new method for side pumping of double-clad fiber sources[J].IEEE J Q E,2003,39(4):529-540.
  • 9HERDA R,LIEM A,SCHNABEL B,et al.Efficient side-pumping of fibre lasers using binary gold diffraction gratings[J].Electron Lett,2003,39(3):276-277.
  • 10FUJITA H,SUZAKI Y,TACHIBANA A.Optical fiber splicing technique with a CO2 laser[J].Appl Opt,1976,15(2):320-321.

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