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超连续谱光纤的优化设计 被引量:3

The Optimal Design of Supercontinuum Fiber
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摘要 比较了三种不同色散光纤用于超连续过程时的频谱展宽特性 ,在此基础上对产生宽带、平坦超连续谱超连续谱的普通色散位移光纤的参量进行模拟设计 ,并提出优化设计应遵循的原则。 The spectral broaden characteristics of three supercontinuum (SC) fibers with different dispersion properties are compared. Then parameters of standard dispersion shifted fiber (DSF) are optimized from aspects of pulse compression and spectrum reshaping demands respectively to generate broadband and flattened SC spectrum. At the same time, principles of parameter optimization in DSF design are also proposed.
作者 刘俭辉 贾东方 丁永奎 李世忱
机构地区 天津大学精密仪器与光电子工程学院教育部光电信息技术科学重点实验室
出处 《光学学报》 EI CAS CSCD 北大核心 2003年第6期684-688,共5页 Acta Optica Sinica
基金 国家自然科学基金 (6 98770 12 ) 教育部博士点基金(19990 0 5 6 15 )资助课题
关键词 光纤光学 超连续谱 色散位移光纤 自相位调制 优化设计 频谱展宽 fiber optics supercontinuum dispersion shifted fiber self-phase modulation (SPM)
分类号 TN253 [电子电信—物理电子学]
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参考文献14

  • 1徐文成,张书敏,罗爱平,陈伟成,刘颂豪,伍剑,娄采云,高以智.色散缓变光纤中超短光脉冲的绝热压缩[J].光学学报,2002,22(4):389-392. 被引量:17
  • 2Nowak G A, Kim J, Islam M N. Stable 200 nm TDM/WDM source based on continuum generation in 2 m of fiber. OFC '99, Paper TUB3, San Diego, USA, 1999.
  • 3Nishizawa N, Goto T. Widely broadened super continuum generation using highly nonlinear dispersion shifted fibers and femtosecond fiber laser. Jpn J Appl Phys , 2001, 40(4B):L365-L367.
  • 4Hansen K P, Jensen J R. Pumping wavelength dependence of supercontinuum generation in photonic crystal fibers. OFC '02,. 622 - 624, Paper ThGG8,Anaheim, USA, 2002.
  • 5Birks T A, Wadsworth W J, Russel P S J.Supercontinuum generation in tapered fibers. Opt Lett ,2000, 25(9):1415-1417.
  • 6Ranka J K, Windeler R S, Stentz A J. Visible continuum generation in air-silica microstructure optical fibers with anomalous dispersion at 800 nm. Opt Lett , 2000, 25(1):25-27.
  • 7Mori K, Takara H, Kawanishi S et al.. Flatly broadened supercontinuum spectrum generated in a dispersion decreasing fiber with convex dispersion profile. 1997, 33(21) : 1806- 18071.
  • 8Morioka T, Takara H, Kawanishi Set al.. 1 Tbit/s(100 Gbit× 10 channel) OTDM/WDM transmission using a single supercontinuum WDM source. Electron Lett ,1996, 32(10) -906-907.
  • 9Kawanishi S, Takara H, Uchiyama K et al . 1.4 Tbit/s(200 Gbit×7 channel WDM) 50 km optical transmission experiment. Electron Lett , 1997, 33(20) : 1716-1717.
  • 10Kawanishi S, Takara H, Uchiyana K et al.. 3 Tbit/s(160 Gbit/s× 19 ch) OTDM/WDM Transmission experiment. OFC '99, Paper PD1, San Diego, USA, 1999.

二级参考文献4

共引文献16

同被引文献21

  • 1XUWen-Cheng JINWei XUYong-Zhao CUIHu LIUSong-Hao.Enhancement of Supercontinuum Spectrum Generation in aDispersion-Decreasing Fibre with a Concave Dispersion Profile[J].Chinese Physics Letters,2004,21(6):1089-1092. 被引量:5
  • 2Nowak G A,Kim J,Islam M N. Stable 200 nm TDM/WDM source based on continuum generation in 2 m of fiber[J].OFC'99,1999,1:10-12.
  • 3Boyraz O,Kim J,Islam M N,et al.10 Gb/s multiple wavelength, coherent short pulse source based on spectral carving of supercontinuum generated in fibers [J].Journal of Lightwave Technology,2000,18(12):2 167-2 175.
  • 4Abedin K,Kubota F.Supercontinuum generation with mode-spacing of 154 GHz in 1 460-1 680 nm region from optical fiber by using actively mode-locked fiber laser[J].OFC 2003,2003,1(233):233-234.
  • 5Sharping J E, Fiorentino M, Kumaar P et al.. All-optical switching based on cross-phase modulation in microstructure[J].IEEE Photon. Technol. Lett. , 2002, 14(1):177-79.
  • 6Lee W S, Zhu Y J, Shaw B et al.. 2.56 Tb/s capacity, 0. 8 b/s/Hz · s DWDM transmission over 120 km NDSF using polarisation-bit-interleaved 80 Gb/s OTDM signal[C]. OFC'01,Qaper TuU1, Anaheim, USA, 2001.
  • 7Sotobayashi H, Konishi A, Chujo W et al.. Simultaneously generated 3.24 Tbit/s (81 WDM×40 Gbit/s) carrier suppressed RZ transmission using a single supercontinuum source [C].ECOC'01, Paper Mo. F. 3, Amsterdam, Holand, 2001.
  • 8Yamada E, Takara H, Ohara T et al.. 150 channel supercontinuum CW optical source with high SNR and precise 25GHz spacing for 10 Gbit/s DWDM systems[J]. Electron. Lett. ,2001, 37(5) : 304-306.
  • 9Petropoulos P, Monro T M, Belardi W et al.. A highly nonlinear holey fiber and its application in a regenerative optical switch[C].OFC'01, Paper TuC3, Anaheim, USA, 2001.
  • 10Hashimoto T, Sotobayashi H, Kitayama K et al.. Photonic conversion of OC-192 OTDM-to-4 × OC-48 WDM by supercontinuum generation[J]. Electron. Lett., 2000, 36(13): 1133-1135.

引证文献3

二级引证文献10

光学学报
2003年 第6期

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