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单模光纤中基于交叉相位调制的压缩脉冲对产生 被引量:2

GENERATION OF COMPRESSED PULSE PAIR BASED ON CROSS-PHASE MODULATION IN SINGLE-MODE FIBERS
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摘要 基于波长位于反常色散区强泵浦脉冲的交叉相位调制 ,通过对波长位于正常色散区的弱脉冲在单模光纤中的传输进行数值模拟 ,得出了一种压缩脉冲的新方法 .计算结果表明 ,在零色散波长位于弱脉冲波长和泵浦脉冲波长中间附近的情况下 ,交叉相位调制 (XPM)与群速度色散 (GVD)的共同作用能使弱脉冲演化成比其初始宽度窄得多的脉冲对 .同时我们还发现 ,泵浦脉冲的相对于信号脉冲初始峰值功率愈高 ,初始相对宽度越小 ,所得弱脉冲的压缩比和压缩后脉冲峰值功率愈高 ,压缩到最窄时所需光纤长度越短 .最后对基于这一压缩的物理机制作了详尽的分析 . Through computer simulation,the compression of weak optical pulses in the normal group-velocity dispersion region by higher-order solitons in the anomalous group-velocity dispersion region of single-mode fibers is analyzed both qualitatively and quantitatively.The results show that the copropagating a weak pulse with an intense pump pulse can lead to generation of compressed pulse pair in an optical fiber whose minimum-dispersion wavelength is chosen such that it falls between the pump and the signal wavelength.Numerical simulation also shows that the higher the initial relative peak power of higher-order solitons is,the higher compression ratio and compressed peak power of pulse pair are.At last,the physical mechanism based on this compression is analyzed detailedly.
作者 杨广强 杨性愉
机构地区 内蒙古大学理工学院物理系
出处 《光子学报》 EI CAS CSCD 北大核心 2001年第12期1461-1465,共5页 Acta Photonica Sinica
关键词 交叉相位调制 群速度色散 压缩脉冲对 单模光纤 传输 数值模拟 Cross-phase modulation Group-velocity dispersion Compressed pulse pair
分类号 TN25 [电子电信—物理电子学]
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共引文献38

同被引文献20

  • 1张书敏,吕福云,董法杰,董孝义.色散渐减光纤组成的环形镜对高阶孤子的理想压缩[J].光子学报,2005,34(4):554-557. 被引量:9
  • 2曹文华,刘颂豪,廖常俊,郭旗.单模光纤中基于暗孤子交叉相位调制的亮脉冲压缩[J].光学学报,1995,15(3):281-286. 被引量:11
  • 3Cao W H, Li S P, Chart K T. Genemtion d dark pulse trains fiom continuous-wave light using cross-phase modulation in optical fibers. Applied Physics Letters, 1999,74 ( 4 ) : 510-512.
  • 4Cao W H, Chan K T. Cross-phase modulation induced ultrashort pulse train generation from cw light in the normaldispersion regime of optical fibers. Opt Commun, 1999,163(4-6) :285-291.
  • 5Chan K T, Cao W H. Generation of ultrashort fundamental solitons from cw light using cross-phase modulation and Raman amplification in optical fibers. Opt Commun, 1998,158( 159 - 169) :159 - 169.
  • 6Hasegawa A. Generation of a train d soliton pulse by induced modulation instability in optical fibers. Opt Lett,1984,9(7) :288 -290.
  • 7Mamyshev P V, Chemikov S V, et al. Generation of fundamental soliton trains for high-bit-rate optical fiber communication lines. IEEE J Quam Electron, 1991, QE-27(10) :2347 -2355.
  • 8Agrawal G P. Nonlinear Fiber Optics. Second Edition,Boston: Mass Academic, 1995,239 - 315.
  • 9YAMAMOTO T, YOSHIDA E, TAMURA K R, et al. 640 Gbit/s optical TDM transmission over 92 km through a dispersion managed fiber consisting of single-mode fiber and "reverse dispersion fiber"[J]. IEEE Photon Technol Lett, 2000, 12(3): 353 -355.
  • 10LASRI J, BILENCA A, DAHAN D, et al. A self starting hybrid optoelectronic oscillator generating ultra low jitter 10-GHz optical pulses and low phase noise electrical signals[J]. IEEE Photon Technol Lett ,2002, 14(7) : 1004-1006.

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光子学报
2001年 第12期

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