transmission equation meaning in English
传输方程
Examples
- Firstly , the paper deduces nonlinear transmission equation based on optical theory , makes it generalized and obtains nonlinear transmission equation synthetically taking account into all kinds of nonlinearity . then , the paper uses it to research the effect of srs to wdm
文中首先在光波理论的基础上导出了光波的非线性传输方程,并对此进行推广,得出了综合考虑各种非线性效应的光波非线性传输方程。 - After that , this paper briefly introduced the optical splitter ' s characteristics of amplication by calculate a uniformly widen three energy level ratio equation and transmission equation . since providing these theories and results , this paper began to discuss on the material characteristic and the whole craft process in short
然后,本文通过计算均匀加宽三能级结构的速率方程和传输方程,对光分路器的增益放大特性作出了一般的理论分析。在有了以上的理论计算和分析之后,本文概括地讨论了制作光分路器的材料特性和工艺过程。 - Lt is expected to help augment fiber capacity and improve the communication quality . the objective of this thesis is to directly obtain the nonlinear transmission equation that govems propagation of optical pulses in single fibers , only employing field temporal - spatial fourier transform
本文首次从光脉冲在有损耗、色散、非线性的光纤中的基本波动方程出发,应用一些符合实际的假设,直接利用场的时空傅里叶变换详细地推导出在wdm系统中光信号在单模光纤内传播所服从的非线性传输方程。 - To accelerate the development of next generation high dwdm system , the pape r also researches the property of gain . based on optical wave nonlinear transmission equation , the gain model of fra is established . by the way of numerical analysis , it is obtained that the gain of fra has relation with pump power , input signal wave power , the effective area and absorption of fiber . the obtained conclusion has definite instruction to the design of fra
为了促进下一代超高速dwdm密集波分复用技术的发展,本文还研究了光纤喇曼放大器的增益特性,根据光波非线性传输方程建立光纤喇曼放大器增益模型,通过数值模拟分析了泵浦波功率、信号输入光功率、以及光纤有效面积和损耗对光纤喇曼放大器增益的影响,得出了一些对光纤喇曼放大器的设计有一定的指导意义的结论。 - It is expected to help augment fiber capacity and improve the communication quality . the objective of this thesis is to directly obtain the nonlinear transmission equation that governs propagation of optical pulses in single fibers , only employing field temporal - spatial fourier transform
本文首次从光脉冲在有损耗、色散、非线性的光纤中的基本波动方程出发,应用一些符合实际的假设,直接利用场的时空傅里叶变换详细地推导出在wdm系统中光信号在单模光纤内传播所服从的非线性传输方程。