1) conducting plate
导电平板
1.
All backscattering field s intensity from conducting plate can be calculated by complex ray method,especially complex ray paraxial approximation in angle domain through modeling the conducting plate.
本文通过建立导电平板反射场分析模型 ,利用复射线方法特别是角域中的复射线近轴近似方法 ,有效地实现了导电平板在整个后向范围内散射场的计算 ,同时计算精度可以由复射线展开参数 ξ来加以控制 。
2) Flat bite plate
平面导板
1.
Myoelectricity study on wearing flat bite plate under different raised distances in deep overbite therapy
深覆矫治过程中平面导板升高咬合垂直距离的肌电图研究
2.
Objective To study the root resorption caused by edgewise appliance combined with flat bite plate treatment.
目的探讨方丝弓矫治器配合使用平面导板正畸治疗对牙根吸收的影响。
3.
The effect of treating deepbite corrected by rackety chair archwire only or together with flat bite plate and the result was compared.
单独采用摇椅形唇弓或联合平面导板的方法,对21例恒牙列期安氏Ⅱ类Ⅰ分类的低角型前突型深覆牙合患者进行了矫治,以观察两种方法临床疗效的异同。
3) Flat and inclined bite plate
平斜导板
4) conducting flat plate
导体平板
5) planar waveguide
平板波导
1.
Propagation characteristics of the planar waveguide with chiral core;
手征媒质平板波导的传播特性
2.
When the ESI model a n d the original waveguide have the best approximated field distribution, the prop agation quality of planar waveguide efficiently can be predicted based on ESI mo del in specific range.
首次采用了场的最小二乘方 (LSE)和最小均方误差 (LMS)判据寻找平板波导的等效阶跃折射率 (ESI)模型 ,并通过它预测了平板波导的传输特性。
3.
Coupling losses in different planar waveguide resonators are calculated for anarbitrary waveguide mode.
相应于方波导或圆波导的三种低耦合损失的谐振腔结构,即平行平面、半共心、半共焦结构,计算了不同纵横比的平板波导内各种模式的耦合损失,讨论了平板波导激光器谐振腔的设计和模式特征。
6) plate conductor
平板导体
1.
A thin opening crack in a plate conductor is much frequently encountered in eddy current nondestructive testing.
以前的工作都以无限厚导体为求解对象 ,文中研究了有限厚平板导体 ,结果表明它更加接近涡流检测的真实情况。
2.
This paper discusses the case with an infinite uniform plate conductor of finite thickness, and the corresponding dyadic Greens function is derived.
推导了有限厚度无限大均匀平板导体中的涡流场并矢格林函数 ,它是求解涡流检测问题构造积分方程法的核心 。
补充资料:半导体导电性(见半导体的导电与电荷输运)
半导体导电性(见半导体的导电与电荷输运)
electrical conductivity of semiconductor
半导体导电性eleetr、ea一conou以,v:‘,_‘ 一J一“。,瓜米早伙鼓幕由乌教着给话_
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