1) quadratic soliton
二次孤子
2) quadratic spatial soliton
空间二次孤子
1.
By learning existing research achievement,this dissertation is dedicated to investigating the excitation and transmission of quadratic spatial soliton.
本文在学习前人研究成果的基础上,对空间二次孤子的激发与传输现象做了一些探索性研究,获得了有一定价值的结果,并讨论了它们的潜在应用。
3) second order soliton
二阶孤子
1.
Under the influence of higher-order effects,the interactions between second order solitons in dispersion-shifted fibers are investigated numerically.
研究了高阶效应影响下,色散位移光纤中二阶孤子间的相互作用,分析了二阶孤子对衰变后时域波形的变化。
2.
Under the influence of third-order dispersion, the interaction of second order solitons in dispersion-shifted fibers was investigated numerically.
在色散位移光纤中,研究了三阶色散影响下同相和反相二阶孤子之间的互作用,分析了同相和反相二阶孤子对衰变后时域波形和频域频移的变化,发现三阶色散使二阶孤子分裂出一大一小两个不同振幅的基阶孤子,并彼此分离,但孤子对中心频率频移量却减小。
4) second-order soliton
二阶孤子
1.
Propagation and interaction of second-order solitons;
二阶孤子的传输和相互作用
2.
Models of periodically inhomogeneous perturbations are made reasonedly in a quasi-ideal dispersion-managed soliton system, their effects on second-order soliton propagation are investigated.
在准理想的的色散管理系统中建立了非均匀扰动模型 ,研究了它们对二阶孤子传输的影响。
3.
In this paper, the propagation of two neighboring second-order solitons in single-mode fiber is simulated numerically, and the interaction of them is investigated.
本文通过数值计算,对时域上相邻的两个二阶孤子在单模光纤中的传输行为进行了模拟,研究了它们之间的相互作用。
5) two-soliton solutions
二孤子解
1.
As an illustrative example, we obtaind two-soliton solutions to the equations in detail.
作为解释,我们得到了方程的二孤子解。
6) two recluses
孤竹二子
1.
In later generations,"Solitary Bamboo"syncretizes the solitary bamboo and the characteristics of the two recluses.
而后代"孤竹"这个概念常是融合了孤生之竹与与孤竹二子两者的品质,并且士人在咏竹时常把一般的竹子当做孤竹来赞美。
补充资料:二氧化双环戊二烯B阶树脂模塑料
分子式:
CAS号:
性质:又称二氧化双环戊二烯B阶树脂模塑料。以二氧化双环戊二烯B阶树脂为基料配制的能采用模塑方法成型的配混料。产品性能为:弯曲强度110MPa,冲击强度5.4kJ/m2;马丁耐热240℃;体积电阻率1.3×1016Ω·cm,介电强度24.5MV/m。由二氧化双环戊二烯B阶树脂,用石英粉等作填料,再加脱模剂配混制得。可用模塑法制成耐热、耐候制品用于军工和民用方面。
CAS号:
性质:又称二氧化双环戊二烯B阶树脂模塑料。以二氧化双环戊二烯B阶树脂为基料配制的能采用模塑方法成型的配混料。产品性能为:弯曲强度110MPa,冲击强度5.4kJ/m2;马丁耐热240℃;体积电阻率1.3×1016Ω·cm,介电强度24.5MV/m。由二氧化双环戊二烯B阶树脂,用石英粉等作填料,再加脱模剂配混制得。可用模塑法制成耐热、耐候制品用于军工和民用方面。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条