本征载流子
- 网络Intrinsic carrier
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介绍了硅材料本征载流子浓度ni、禁带宽度Eg、电子和空穴有效质量和及载流子迁移率μ的高温模型和计算结果。
In this paper , the high temperature models and calculation results of silicon materials ' intrinsic carrier concentration m , energy gap Eg , effective mass of electron and hole as well as carrier mobility p are introduced .
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低温区硅的禁带宽度和本征载流子浓度与温度的关系
Low temperature model of the bandgap and the intrinsic carrier concentration in silicon
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应变Si(1-x)Gex层本征载流子浓度和有效态密度的温度特性分析
Temperatures characteristics of intrinsic carrier concentration , effective densities of states in strained si_ ( 1-x ) ge_x layers
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非抛物型能带半导体Hg(1-x)CdxTe的本征载流子浓度
Intrinsic carrier concentration in hg_ ( 1-x ) cd_xte semiconductors with nonparabolic band
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迁移率和本征载流子浓度随着Ⅴ/Ⅲ比的增加而增大。
The mobility and residual carrier concentration will increase as the ⅴ / ⅲ ratio increases .
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本文提出了低温区高精度的禁带宽度的表达式,获得了低温区本征载流子浓度的简明公式。
A accurate expression for the bandgap and a simple formula for the intrinsic carrier concentration at low temperature are presented .
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考虑到禁带变窄效应的作用,本文导出了重掺杂硅中本征载流子浓度与温度和杂质浓度的关系式。
The relation between the intrinsic carrier concentration and the temperature and doping concentration in the heavily doped silicon is obtained , under the consideration of the narrowing effect of the bandgap at the heavy doping level .
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抽运-探测反射技术研究本征CdTe的载流子动力学
Carrier Dynamics of Intrinsic CdTe by Pump-Probe Reflection Spectroscopy