摘要
在抽运光和耦合条件不变的情况下,研究了熔接组合的非零色散位移单模光纤(NZDSF)和标准单模光纤(SMF)中的受激拉曼散射(SRS)和四波混频(FWM)产生和传输特征。采用532nm脉冲激光抽运NZDSF,从20m处开始产生以LP01模传输的SRS第一级Stokes光;紧接着在30m处产生了FWM,SRS受到FWM抑制,传输模式逐渐转化为LP11模;经过80m处熔接点后,由于熔接处双锥光纤结构使光场模式互相干涉,光波模式恢复为LP01模,FWM受到抑制。该现象和机理有利于抑制密集波分复用(DWDM)系统中光学非线性失真和促进光孤子通信系统的发展。
In the present paper, yielding and propagation characteristics of the stimulated Rarnan scattering(SRS) and four wave mixing(FWM) were researched in a non-zero dispersion shifted single-mode optical fiber(NZDSF) and standard single-mode optical fiber(SMF) combination under the same pump light and coupling conditions. At 20 m length of NZDSF, The first order Stokes 544. 6 nm of SRS gains and is transported by LP01 mode. At 30 m length, 537.7 nm of FWM emerges but 544.6 nm of SRS decreases whose mode is gradually transformed into the LPH mode. After 80 m length of NZDSF, because the splice point between NZDSF and SMF is a biconical fused taper and their transmission mode interferes with each other, FWM is suppressed and the mode is converted to LP01 again. The phenomena and mechanisms are conducive to inhibiting of optical nonlinear distortion in a dense wavelength division multiplexing system and to developing optical soliton communication system.
出处
《光谱学与光谱分析》
SCIE
EI
CAS
CSCD
北大核心
2013年第6期1451-1455,共5页
Spectroscopy and Spectral Analysis
基金
国家自然科学基金项目(61275135)资助
关键词
受激拉曼散射
四波混频
模式
非零色散位移单模光纤
Stimulated Raman scattering
Four wave mixing
Mode
Non-zero dispersion shifted single-mode optical fiber
