激光技术
激光技術
격광기술
LASER TECHNOLOGY
2010年
1期
120-123
,共4页
光纤光学%光子晶体光纤%孤子自频移%红移辐射
光纖光學%光子晶體光纖%孤子自頻移%紅移輻射
광섬광학%광자정체광섬%고자자빈이%홍이복사
fiber optics%photonic crystal fibers%soliton self-frequency shift%red-shifted radiation
为了研究双零色散点光子晶体光纤反常色散区中红移辐射的产生,采用分步傅里叶方法数值模拟了飞秒脉冲在双零色散点光子晶体光纤反常色散区中的非线性传输和红移辐射的产生.分析了抽运脉冲的脉宽、抽运波长、入射峰值功率对红移辐射的影响.结果表明,当超短脉冲靠近第2个零色散点的反常色散区进行抽运时,喇曼孤子受高阶色散效应的影响产生了红移辐射现象:当增大抽运激光的入射峰值功率或增大脉宽时,红移辐射均增强,而且发生了明显的分裂现象,其起因可归结于喇曼孤子和红移辐射之间的交叉相位调制:此外,3阶色散效应对红移辐射也有重要的影响,当增大3阶色散系数时,红移辐射可得到进一步加强.
為瞭研究雙零色散點光子晶體光纖反常色散區中紅移輻射的產生,採用分步傅裏葉方法數值模擬瞭飛秒脈遲在雙零色散點光子晶體光纖反常色散區中的非線性傳輸和紅移輻射的產生.分析瞭抽運脈遲的脈寬、抽運波長、入射峰值功率對紅移輻射的影響.結果錶明,噹超短脈遲靠近第2箇零色散點的反常色散區進行抽運時,喇曼孤子受高階色散效應的影響產生瞭紅移輻射現象:噹增大抽運激光的入射峰值功率或增大脈寬時,紅移輻射均增彊,而且髮生瞭明顯的分裂現象,其起因可歸結于喇曼孤子和紅移輻射之間的交扠相位調製:此外,3階色散效應對紅移輻射也有重要的影響,噹增大3階色散繫數時,紅移輻射可得到進一步加彊.
위료연구쌍령색산점광자정체광섬반상색산구중홍이복사적산생,채용분보부리협방법수치모의료비초맥충재쌍령색산점광자정체광섬반상색산구중적비선성전수화홍이복사적산생.분석료추운맥충적맥관、추운파장、입사봉치공솔대홍이복사적영향.결과표명,당초단맥충고근제2개령색산점적반상색산구진행추운시,나만고자수고계색산효응적영향산생료홍이복사현상:당증대추운격광적입사봉치공솔혹증대맥관시,홍이복사균증강,이차발생료명현적분렬현상,기기인가귀결우나만고자화홍이복사지간적교차상위조제:차외,3계색산효응대홍이복사야유중요적영향,당증대3계색산계수시,홍이복사가득도진일보가강.
In order to study the red-shifted radiation generation in a photonic crystal fiber with two zero dispersion wavelengths in the anomalous dispersion region,the nonlinear propagation and red-shifted radiation generation of a femtosecond laser pulse in a photonic crystal fiber were simulated with the split-step Fourier algorithm.The effect of pulse width,center wavelength and input peak power of the pump pulse on the red-shifted radiation was analyzed.It is found the phenomenon of red-shifted radiation of Raman soliton caused by higher-order dispersion occurs when the pump wavelength is located in the anomalous dispersion region nearby the second zero dispersion wavelength.The intensity of red-shifted radiation components can be enhanced with the input peak power or pulse width increased.In addition,the three-order dispersion effect also has an important effect on the red-shifted radiation.The intensity of red-shifted radiation components can be further enhanced by increasing the three-order dispersion coefficient.
