玻璃半导体
- 网络glass semiconductor;glasssemiconductor
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Te基玻璃半导体的电子显微镜观察
Electronmicroscopic Observations of Te-Rich Glass Semiconductors
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As-Te玻璃半导体的温差电动势率和电导率的研究
Thermoelectric power and DC conductivity of bulk As-Te chalcogenide glasses
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本文给出体样品As-Te、As-Te-Ge和(As2Te3)(1-x)Nix硫系玻璃半导体温差电动势率和直流电导率与温度的关系。
Thermoelectric power and DC conductivity of bulk As-Te , As-Te-Ge and ( As_2Te_3 ) _ ( 1-x ) Ni_xchalcogenide glasses as function of temperature have been given in this paper .
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Te-Ge系统玻璃半导体组成与析晶行为的依赖关系
The interdependence of composition and crystallization behaviour of amorphous semiconductor of te & ge system
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对玻璃中半导体量子点的生长过程、量子点的电子态,量子尺寸效应、库仑阻塞效应及介电效应,做了比较全面的介绍。
The growth and the electronic state of quantum dots , quantum size-dependent effects , Coulomb blockade effects and dielectric effects are described .
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金刚石砂轮广泛用作硬质合金、工程陶瓷、光学玻璃、半导体材料、花岗岩等硬脆难加工材料的磨削工具。
Diamond grinding wheels are widely used as grinding tools in manufacturing of hard and brittle materials , such as hard alloy , engineering ceramics , optical glass , semiconductor materials , and granite .
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金属-玻璃膜-半导体(MGS)结构的C-V特性探讨
The C-V Characteristic Study of Metal-Glass-Semiconductor ( MGS ) Construction
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本文首次研究了Tm(01)Yb(109)氟氧化物玻璃在966nm半导体激光激发下的直接上转换敏化发光现象。
This paper studied the direct upconversion sensitization luminescence of Tm ( 0 1 ) Yb ( 10 9 ): oxyfluoride glass pumped by 966 nm diode laser .
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玻璃中的半导体量子点
Semiconductor quantum dots in a glass matrix
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玻璃掺杂固溶半导体(ZnxCd(1-x)S)荧光效应
Luminescence of solid solution Semiconductor ( Zn x Cd 1 - x S ) doped with silica glass
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分别以Cd(NO3)2和(NH2)2CS作为镉源和硫源,用化学沉积法(CBD)在ITO玻璃上生长CdS半导体纳米薄膜。
CdS semiconductor nano-films were grown on ITO glass substrates by means of chemical bath deposition ( CBD ) technique with Cd ( NO3 ) 2 as the Cd ions and ( NH2 ) 2CS as the S ions source .
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玻璃钝化技术对半导体放电管抗浪涌能力的影响
Influence of Glass Passivation on the Surge Handling Capability of Semiconductor Arresters
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共熔法在玻璃中生长的半导体量子点的电偶极矩
Electric Dipole Moment of Graded Spherical Semiconductor Quantum Dots Embedded in Glass
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借助于介质极化理论的一些一般结果,得到球形量子点内的有效电场;量子点内的有效电场与玻璃中的电场成正比,比例系数决定于玻璃和半导体量子点的介电常数。
For a sphere , the depolarization coefficient is 1 / 3 . Based on some general results of the effective medium theory , the electric field in the quantum dot is analyzed and the relation with the applied electric field is presented .