以波导结孔径面电场积分方程的矩量解法为基础,本文提出了一种多端口波导结的新型数值分析方法。
A new approach to analysis of multi-port waveguide junctions, based on the numerical solution of iris electric field integral equations, is presented and discussed.
对电荷受电场力作用提出了两面场的观点,指出电荷受到的是包括自场在内的总场作用。
The effect of electric field power on charge in view of double faced field is presented, and what charge receives is the effect of total field including its own field.
采用泊松方程和漂移-扩散方程对介质阻隔面放电进行数值模拟,得到了电子、离子以及电场分布随时间的变化。
The dielectric barrier surface discharge process is simulated using Poisson's equation and drift-diffusion equation and the distribution history of electron, ion and electric field is gained.
提出了用介质圆柱光子晶体作微波天线的柱抛物面反射镜,用多重散射方法计算了反射镜的透过谱,并模拟计算了天线的电场分布,初步认为可以用非晶光子材料作微波天线的反射镜。
We calculated the transmission of the mirror and the distribution of electric field by using multiple scattering method. The result shows that it can be used as a reflecting mirror of an antenna.
将双层式静电场描绘仪改为单层式静电场描绘仪.电极从面接触改为线接触。
Bilayer electrostalic field plotter is transformed into monolayer electrostalic field plotter. Elec tricpole is transformed from surface contact into line contact.
高压电场干燥、高压电场解冻和电渗透脱水都是新型技术,将会在静电应用方面掀开崭新的一面。
High electric drying, high electric thawing and electroosmosis dewatering technology are novel technology, and will initiate new domain in electrostatic application.
通过结构、热电场的全耦合,分析了焊接过程中接触面压力变化规律,单边焊熔核形成过程以及形核特点等。
The change rule of the contact pressure, nucleation process and character were investigated by the coupled thermal-electrical-mechanical analysis.
在椭球座标系中对均匀外电流场中的面极化椭球体的电场进行了求解。
Analytical solutions for the electric field due to surface-polarizable ellipsoids located in a uniform external electric field are derived in an ellipsoidal coordinates.
用二阶微拢论计算这一截面,结果表示为核矩阵元和激光电场强度的函数。
The cross sections for such processes are calculated in second order perturbation theory and expressed in term of the intensity of laser radiation and the nuclearmatrix elements.
在另一方面,我们已掌握的在芯片内利用电场操控电荷的技术然而目前该技术还无法被用来操控自旋。
An art we have already mastered, on the other hand, is applying an electric field to manipulate charge on a chip - but until now we had no way of using this to control spin.
在另一方面,我们已掌握的在芯片内利用电场操控电荷的技术然而目前该技术还无法被用来操控自旋。
An art we have already mastered, on the other hand, is applying an electric field to manipulate charge on a chip - but until now we had no way of using this to control spin.
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