零色散波长

  • 网络Zero-dispersion wavelength;Zero dispersion wavelength
零色散波长零色散波长
  1. 本建议描述了一种在1550nm附近具有零色散波长的单模光纤和光缆的传输特性。

    This Recommendation describes the transmission related attributes of single-mode optical fibre and cable with zero-dispersion wavelength shifted into the1550 nm window .

  2. 单模光纤正常色散区零色散波长附近的啁啾演变特性

    The evolution of chirp in normal-dispersion near the zero-dispersion wavelength in the single-mode fibers

  3. 非均匀零色散波长光纤中的四波混频效率

    The efficiency of four-wave mixing in fiber with non-uniform zero-dispersion wavelength

  4. 红外光纤零色散波长的测量和计算

    The Measurement and Calculation of Zero Dispersion Wavelength in Infra-red Fiber

  5. 光纤零色散波长的精确测量

    Accurate Measurement of Zero Dispersion Wavelength in an Optical Fiber

  6. 光纤四波混频的零色散波长涨落效应和相位敏感放大

    Randomly varying zero dispersion wavelength and phase sensitive amplification in fiber four wave mixing

  7. 氯化铯型离子晶体零色散波长的计算

    Calculation of Zero Dispersion Wavelength in CsCl-type Crystal

  8. 参量效应在零色散波长附近的位相匹配

    Phase Matching for Optical Parameter Effect near Zero Dispersion Wavelength of Single Mode Fiber

  9. 色散位移光纤中零色散波长纵向分布对四波混频转换效率的影响

    Effect of Longitudinal Zero-Dispersion Wavelength Variation along Dispersion-Shifted Fiber on the Four-Wave Mixing Conversion Efficiency

  10. 最后,本文提出了减小零色散波长波动影响的几点措施。

    At last , several measures are put forward to reduce the impact of ZDWL fluctuation .

  11. 光纤零色散波长点附近光孤子传输特征的理论分析

    Theory Analyses of Propagation Feature of Optical Soliton near the Zero-dispersion Wavelength Point of an Optical Fiber

  12. 零色散波长波动的范围越大,有效延时带宽越大,在带宽内的延时也越大。

    The more zero dispersion wavelength fluctuation ranges is , the more effective delay bandwidth and also delay value are .

  13. 研究还发现,在零色散波长附近的反常色散区较零色散波长点更易产生四波混频效应。

    It is also found that four-wave mixing occurs more easily in anomalous dispersion region than at the zero-dispersion wavelength .

  14. 光子晶体光纤中的色散特性和高非线性特性研究是当前光子晶体光纤研究的两个重要领域,而具有双零色散波长的光子晶体光纤的非线性特性研究已成为其研究的重点之一。

    The study of dispersion and nonlinearity of photonic crystal fibers are two important fields in the research of photonic crystal fibers .

  15. 为探讨三阶色散对脉冲传播的意义,用数值模拟的方法讨论了在色散缓变光纤中零色散波长附近三阶色散对脉冲频谱演变的影响。

    Propagation of spectra affected by third-order dispersion in dispersion-decreasing fiber near zero dispersion wavelengths was studied by means of numerical simulation .

  16. 利用数值方法,模拟了零色散波长附近群速度色散效应与自相位调制效应共同作用时啁啾的演变。

    Using numerical method , we simulate the evolution of chirp near the zero dispersion point when the dispersion interacts with nonlinear effect .

  17. 对单模光纤的色散谱进行测量,得出单模光纤的零色散波长和色度色散随波长变化的斜率。

    The spectral dispersion of single-mode fiber is measured and the zero chromatic dispersion wavelength , the slope of dispersion vs. wavelength are obtained .

  18. 对于零色散波长大于1.55μm的色散移位光纤,暗孤子的放大周期比亮孤子的放大周期大一倍。

    In the λ > 1 . 55 μ m dispersion-shift fibre , the amplification period of dark solitons is as twice as bright soliton 's.

  19. 讨论了氯化铯型离子晶体束缚激子的结合能、极化波振子强度、零色散波长和微观参数之间的关系。

    The relationship between the micro-parameters and the binding energy of the exciton , the polarization wave oscillator strengths or the zero dispersion wavelength is discussed separately .

  20. 本文利用约化摄动重整化方法研究了光纤零色散波长点附近光孤子传输的特征。

    Propagation feature of optical soliton near the zero-dispersion wavelength point is researched by using Reductive Perturbation Method ( RPM ) and Renormalization Method in this paper .

  21. 然而,当入射波长处于零色散波长区时,三阶色散将影响孤子传输的稳定性。

    However , third-order dispersion ( TOD ) will affect the stability of soliton propagation when the wavelength of signal is in the zero dispersion wavelength regions .

  22. 由于光纤线路由多根光纤连接而成,因此沿整个线路零色散波长就稍有差别。

    It is known that there is a slight difference of zero dispersion along an optical fiber link , because the link is concatenated with lengths of fibers .

  23. 通过优化光纤长度、零色散波长和色散参数,实现了增益谱的平坦化。

    Flattened gain spectrum is achieved by optimizing fiber length , zero-dispersion wavelength and dispersion parameters . 4 : The initial experiments of fiber optical parametric amplification are accomplished .

  24. 主要介绍了一套高精度光纤色散测试系统,系统采用频域相移法测量光纤的零色散波长以减小系统误差的影响,其零色散波长测量不确定度达到了0。

    Its a frequency-domain phase shift system designed to minimize systematic errors in measurements of zero-dispersion wavelength , and it has the λ 0 characterized with an expanded uncertainty of0 .

  25. 针对三阶色散对零色散波长附近光脉冲偏振复用技术的破坏作用,提出了使用色散平坦光纤来抑制三阶色散的影响。

    Dispersion-flatten fibers are used to suppress the third-order dispersion to some extent based on the effect of third-order dispersion on pulse transmission by polarization multiplexing technique with zero dispersion wavelength .

  26. 同时分析了不同泵浦光功率和不同增益光纤长度时,零色散波长波动对噪声的影响。

    We made a simultaneous analysis of the influence of noise , when FOPA has different pump light power and the fiber length of the different gain fluctuations in the zero-dispersion wavelength .

  27. 将信号波长固定在光纤零色散波长附近,将强信号光作为泵浦源,当连续可调激光器的波长往长波方向调节时,新生成的闲频光波长就可连续地往短波方向调节。

    When the signal wavelength is fixed near zero-dispersion wavelength of the highly nonlinear fiber to act as the pulsed pump , the newly generated idler wavelength can be tuned continuously towards the short-wavelength side while the wavelength of a continuous tunable laser is tuned towards the long-wavelength side .

  28. 研究了色散位移光纤零色散区域附近的四波混频特性,讨论了当零色散波长彼此不同的多段光纤连接起来后对四波混频效率的影响。

    The four-wave mixing behavior near the zero-dispersion region of the dispersion-shifted fiber is theoretically studied and the case in which several dispersion-shifted fibers with different zero-dispersion wavelengths are combined together for four-wave mixing is considered .