1) charge pattern
电荷象
2) image charge
象电荷
1.
The problem of the point charge and conductive sphere is derived that the center of electric charge located in the place of image charge.
导出点电荷与导体球问题的感应电荷中心在象电荷位置处,阐明感应电荷中心的重要物理意义。
2.
It is agreed that the interaction energy of a charge system involving image charges equals those of a real charge syste
:赞同与象电荷有关的系统的相互作用能和真实电荷系统的相互作用能之间的关系应是等值关系的观
3.
It is pointed out that the interaction energy and interaction force of a charge system involving image charges equals those of a real charge system respectively and the self energy and total energy of a charge system involving image charges not equals those of a real charge system.
指出与象电荷有关的系统的互能、互作用力和真实电荷系统的互能、互作用力分别相等,自能、总能一般分别不
3) image charge
镜象电荷
4) charge image
电荷图象
5) monocharge phenomena
单电荷现象
1.
In this paper, started with monocharge phenomena, research both on theorem and experiments are introduced, realization of quantum dots, size effect and capacitance in nanoparticles are summed up.
本文从单电荷现象开始,简述了实验研究和理论研究的进程,介绍了纳米粒子中量子点的实现及尺寸效应和纳米粒子系统的电容等基本内容,概括了单电子电导的技术应用。
6) charge image
电荷图象(电信)
补充资料:半导体的导电与电荷输运
半导体的导电与电荷输运
conductance and charge transport in semiconductor
“一斋<:>厂rE嚼。:丈“E4fod二于声学声子散射,r一3厂/8一1.18;而对于电离杂质散射,r二315厂/512=1 .93。在:与能量无关的情况下,r一1。如果n》P,有R一r(二皿)2一3 一 一一 、/ r /、式中E为电子能量。对P之0,有 e
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