1) hole conductivity
空穴电导率
1.
The electron conductivity and hole conductivity of the silver iodo-bromide T-grain crystal doped with K_4[Fe(CN)_6] was determined with Wagner polarization.
利用Wagner极化法研究了掺杂K4[Fe(CN)6]浅电子陷阱掺杂剂的溴碘化银T 颗粒晶体的电子电导率和空穴电导率,并与未掺杂的晶体样品进行对比,分别考察了实验温度、掺杂剂用量、掺杂位置等因素对实验结果的影响。
2.
(After) the ionic current reached zero, the electric current was measured with vary voltage and then the electron conductivity and hole conductivity were determined.
根据Wanger直流极化法原理,采用可逆电极与阻塞电极并用的方法,对溴化银T颗粒乳剂微晶体在直流电场中进行极化,当离子电流为零时测得其电子电导率和空穴电导率。
3.
By applying Wagner polarization measurement,the effect of antifoggants on electron conductivity and hole conductivity of silver bromide iodide T-grain emulsions was studied.
利用Wagner极化法研究稳定剂和防灰雾剂对溴碘化银T-颗粒乳剂微晶体的电子电导率和空穴电导率的影响。
2) hole conduction
空穴导电
1.
Based on the basic concepts of quantum physics and classical picture,the concept of hole and the essentials of hole conduction and P type Hall effect are explained.
根据量子物理的基本概念和经典图像说明空穴概念以及空穴导电和P型霍尔效应的实
3) conduction holes
导电空穴
4) hole conductivity
空穴导电性
5) electron-hole recombination rate
电子空穴复合率
6) p-n-p junctionp-n-p
结指空穴导电型-电子导电型-空穴导电型
补充资料:电导率(见电阻率)
电导率(见电阻率)
conductivity
d!日nd日O}已电导率(eonduetivity)见电阻率。
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