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拉曼泵浦光源退偏技术研究 被引量:2

Study of depolarization of Raman pump source
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摘要 文中利用琼斯(Jones)矩阵和斯托克斯参量分别对几种拉曼泵浦光源退偏方式进行了理论分析,并对实际的激光器光谱进行了偏振度的数值计算。在采用基于偏振合光(PBC)的方法进行退偏时,只有当两激光器的光功率相同时才可以得到最小的偏振度;在采用偏振合光加双折射晶体退偏(PBCD)时,计算表明,随着晶体长度的变化,偏振合波后的偏振度总小于单只激光器通过晶体后的偏振度,因此晶体长度的设计应为使单只激光器退偏所要求的晶体长度,这样可保证不同泵浦情况下的偏振度。文中的设计方法和结论对拉曼放大器的泵浦光源退偏设计具有一定参考作用。 Theoretical analysis has been made of several kinds of Raman pump laser depolarization based on Jones matrix and Stock parameters and the numerical computation of the depolarization degrees of the actual laser spectrums performed. When the Polarization Beam Combined (PBC) method is adopted, the minimum Degree Of Polarization (DOP) can be obtained only when the optical powers of the two lasers are identical. However, when PBC plus the birefringent crystal depolarization are adopted, the DOP after PBC is always smaller with the variations of the crystal length than that when a single laser runs through the crystal. Therefore, the crystal length should be so designed as required by single laser depolarization to maintain the DOP with different pump sources. The design method and conclusion presented in this paper may contribute to the depolarization design for the pump laser of Raman amplifiers.
作者 罗勇 孙军强 许远忠
机构地区 华中科技大学光电子工程系 武汉邮电科学研究院
出处 《光通信研究》 北大核心 2006年第3期54-57,共4页 Study on Optical Communications
关键词 琼斯矩阵 斯托克斯参量 拉曼放大器 偏振度 Jones matrix Stocks parameter Raman amplifier DOP
分类号 TN253 [电子电信—物理电子学]
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二级参考文献9

  • 1G. P. Agrawal.Nonlinear Fiber Optics (2nd Edition)[]..1995
  • 2AlanEvans.Raman amplification in broadband WDM systems[].Optical Fiber communications(OFC).2001
  • 3M. L. Dakss,P. Melman.Amplified spontaneous Raman scattering and gain in fiber Raman amplifiers[].Journal of Lightwave Technology.1985
  • 4Yasuhiro Aoki.Properties of fiber Raman amplifiers and their applicability to digital optical communication system[].Journal of Lightwave Technology.1988
  • 5Howard Kidorf,Karsten Rottwitt,Morten Nissov et al.Pump interactions in a 100-nm bandwidth Raman amplifier[].IEEE Photonics Technology Letters.1999
  • 6Bumki Min,Won Jae Lee,Namkyoo Park.Efficient formulation of Raman amplifier propagation equations with average power analysis[].IEEE Photonics Technology Letters.2000
  • 7E. Desurvire,Michel J. F. Digonnet,H. J. Shaw.Theory and implementation of a Raman active fiber delay line[].Journal of Lightwave Technology.1986
  • 8FabrizioForghieri,RobertW .Tkach,AndrewR .Chraplyvy.BandwidthofcrosstalkinRamanamplifiers[].OpticalFiberCommunications (OFC).1994
  • 9ChrisFludger,AndrewMaroney,NigelJolleyetal.AnanalysisoftheimprovementsinOSNRfromdistributedRamanamplifiersusingmoderntransmissionfibres[].OpticalFiberCommunications (OFC).2000

共引文献3

同被引文献47

  • 1张敏明,刘德明,王英,黄德修.光纤拉曼放大器中增益的偏振相关特性研究[J].光学学报,2006,26(4):600-604. 被引量:7
  • 2Kee H H, Fludger C R S, Handerek V. Statistical properties of polarisation dependent gain in fibre Raman amplifiers[C]//Con- ference on Optical Fiber Communication. 2002 : 180-181.
  • 3Lin Q, Agrawal G P. Vector theory of stimulated Raman scat- tering and its application to fiber-based Raman amplifiers [J]. J. Opt. Soc. Am. B, 2003, 20(8):1616 -1631.
  • 4Sergeyev S, Popov S. Polarisation dependent gain in fibre Ra- man amplifiers: Effect of PMD and pump states of polarization [C]//Optical Fiber Communication Conference. 2003: MF20.
  • 5Agrawal G P. Nonlinear fiber optics [M]. New York: Academ- ic Press, 1989:Ch8.
  • 6Victor E P, Herbert G W. Optimal design of flat-gain wide band fiber Raman amplifiers [J]. J. Lightwave Technol, 2002, 20 (2) : 250-254.
  • 7Aoki Y. Properties of fiber Raman amplifiers and their applica- bility to digital optical communication systems [J]. J. Light- wave Technol , 1988, 6(7) :1225-1239.
  • 8Popov S, Vanin E, Jacobsen G. Influence of polarization mode dispersion value in dispersion-compensating fibers on the polari zation dep.endence of Raman gain [J]. Opt. Lett., 2002, 27 (10):848 -850.
  • 9Son E S, Lee J H, Chung Y C. Gain variation of Raman ampli- fier in birefringent fiber [C] // Optical Fiber Communication Conf. 2003:TuC5.
  • 10Son E S, Lee J H, Chung Y C. Exact analysis for statistics of gain variation in counter-pumped Raman amplifier [C]//Optical Fiber Communication Conf. , 2004:WJ3.

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光通信研究
2006年 第3期

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