1) strongly nonlinear composite madia
强非线性复合介质
2) nonlinear composites
非线性复合介质
1.
The homotopy analysis method is used to solve the electric potential boundary-valued of nonlinear composites,which obey a current-field of J=6E+|E|2E.
在基质和杂质服从J=6E+|E|2E分布的情况下,应用同伦分析方法研究了非线性复合介质电势边值问题,得到了电势的一阶近似解析解。
3) Strongly nonlocal nonlinear media
强非局域非线性介质
1.
Propagation of phase modulated Gaussian beam instrongly nonlocal nonlinear media;
相位调制高斯光束在强非局域非线性介质中的传输特性
2.
The propagation properties of the elliptic Gaussian beam in strongly nonlocal nonlinear media;
椭圆高斯光束在强非局域非线性介质中的传输特性
4) Sub-strongly non-local nonlinear media
亚强非局域非线性介质
5) nonlinear dielectric
非线性介质
1.
Two stress-controlled composite structures with nonlinear dielectrics are introduced to improve the electrical field distribution of power equipments.
为改善电力设备中的电场分布,引入了两种含有非线性介质的复合应力控制结构,利用阻容网络模型对这两种结构进行了电路模拟,并用专门开发的时域有限元计算程序对前者进行了电场模拟,实验利用简化的电缆终端试样进行。
2.
Spatiotemporal instability in the planar nonlinear dielectric waveguide is analyzed by nonlinear equation,and the expression of Modulation instability(MI) gain in Raman Scattering is obtained.
基于非线性包络方程我们研究了平面非线性介质波导中的时空不稳定性,得到了有拉曼散射效应情形下不稳定性调制的增益谱的表达式。
6) nonlinear medium
非线性介质
1.
Propagation of ultrashort pulse laser in nonlinear medium;
非线性介质中超短激光脉冲的传播
2.
The method was to divide the nonlinear medium into a lot of homogeneous sublayers and to deduce reversedly the input intensity from the output intensity by using transfer matrix of each sublayer.
研究了一维非线性介质的传输矩阵算法,并对色散型缺陷层的一维光子晶体的光学双稳态特性进行了模拟。
3.
In this paper,we introduce the present research situation of phase conjugated MOPA systems based on stimulated Brillouin scattering and also introduce several kinds of new nonlinear medium and typical respective MOPA systems and point out it s development prospect.
本文介绍了受激布里渊散射相位共轭MOPA系统的研究现状 ,重点介绍了近年来开发的几种新的非线性介质及几种典型的代表当今水平的受激布里渊散射相位共轭MOPA系统 ,并指出其未来发展前
补充资料:非线性电介质
分子式:
CAS号:
性质:在一定电场强度范围内,极化强度随电场强度的变化呈非线性关系,因而是介电常数随电场而改变的电介质材料。一般铁电体都是非线性介质材料。
CAS号:
性质:在一定电场强度范围内,极化强度随电场强度的变化呈非线性关系,因而是介电常数随电场而改变的电介质材料。一般铁电体都是非线性介质材料。
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