半导体玻璃

Fe2O3-V2O5-P2O5半导体玻璃的制备与性能研究

Preparation and Performance Research of Fe_2O_3-V_2O_5-P_2O_5 Semi-Conducting Glass

用准急压冷法制成Fe2O3－SrO－TeO2系半导体玻璃并对其直流电导率进行了测定。玻璃形成范围为（以摩尔计）；

Fe_2O_3-SrO-TeO_2 glass was prepared by the press-quenching method and dc conductivity of the glass was measured .

掺半导体玻璃（SDG）波导非线性饱和的导波测量方法

Guide wave measuring method of nonlinear saturation of semiconductor - - doped glass waveguide

根据半导体玻璃的能带模型以及XPS的实验结果，提出了该硫系玻璃电极的选择性响应机理。

Based on the models of energy band structure of the semiconductor glasses and the results of XPS , the mechanism of ion-selective response of the glass electrodes was proposed .

研制出孔径为20μm、外径为12mm的半导体玻璃微通道板，实验利用紫外光电法测试了微通道板的增益、闪烁噪声和成像性能。

The semiconductor glass microchannel plates , whose aperture is 20 μ m and the external diameter is 12 mm , were fabricated .

本文描述了非线性导波周期结构的基本概念和制备方法，并在InSb和掺半导体玻璃波导上制备出了光栅耦合器，观测到了非线性耦合效应，讨论了它们的实用化前景。

Fundamental concept and fabricating method of nonlinear gnided-wave periodic structure are described in this paper . Grating couplers are made on InSb and semiconductor doped glass waveguide . Nonlinear coupling effects are observed experimentally .

掺半导体玻璃波导光栅耦合高速全光开关

All optical switch in grating coupling to semiconductor doped glass waveguides

掺半导体玻璃波导的导波功率限制

Power limit of guided wave on semiconductor - doped glass waveguide

掺半导体玻璃波导特性研究

Study of property of semiconductor doped glass waveguide

掺半导体玻璃中的简波四波混频

Degenerate four-wave mixing in semiconductor doped glasses

半导体玻璃微通道板的研制

Development of semiconductor glass microchannel plates

介绍了半导体玻璃微通道板的主要性能，并与传统铅硅酸盐玻璃的相关性能进行了比较。

The properties of the semiconductor glass microchannel plates ( MCPs ) are described and compared with traditional glass MCPs .

本文报导了在掺半导体玻璃波导上用离子刻蚀的方法制备出了表面刻蚀光栅耦合器。

A surface relief grating coupler on semiconductor doped glass waveguide fabricated by ion etching technology is presented for the first time .

阐述了半导体玻璃的研制工艺，研究了利用半导体玻璃材料制备微通道板的工艺途径，开发了靠玻璃本身体电导性质而无需氢还原工艺的微通道板，即半导体玻璃微通道板。

The preparation technique is presented in detail . Moreover , the approach for developing microchannel plates made of semiconductor glass is investigated .

饱和型半导体掺杂玻璃光纤中的明暗孤子行波解

The propagating solitary wave solution in semiconductor-doped glass optical fibers

文中给出了半导体掺杂玻璃微晶尺寸与量子限效应的关系。

The relation between the microcrystal size and quantum-confined effect was obtained .

半导体掺杂玻璃的量子限效应

Quantum - confined Effect in Semiconductor-doped Glasses

半导体掺杂玻璃非线性热致折射系数的测量

Measurement of third order nonlinear refractive coefficients associated with the thermal effect in semiconductor-doped glasses

激光加工的材料范围可从金属、半导体、玻璃、复合材料、有机材料到陶瓷等。

Materials of laser processing can range from metals , composites , semiconductor materials , organic materials , ceramics , glass and so on .

同时，橡胶、肥料、半导体、玻璃、陶瓷、电镀、矿山开采、制药等行业排放出的含氟废水对生态环境带来明显的污染破坏。

At the same time , high-concentrated fluoride effluent from rubber , fertilizer , semiconductor factories , glass , ceramics , electroplating industries , mine or pharmaceutical industries has caused serious impact on ecological environment .

旋转超声波加工是一种新的超声波复合加工方法。近年来，它主要用于陶瓷、半导体和玻璃等硬脆材料的孔加工。

The rotary ultrasonic machining is a new ultrasonic machining ( USM ) method which has been mainly used to drill holes in hard and brittle materials such as ceramics , semiconductors , and glasses in recent years .

理论计算与实验研究的结果均表明：在抗共振环APM激光器中，应用CdS＿xSe＿（1－x）半导体微晶掺杂玻璃不能使超短光脉冲宽度被压窄。

The results based on numerical calculation and experimental research indicate that the glass doped with CdSxSe ( 1-x ) semiconductor microcrystallites can not be applied to the antiresonant ring APM laser to shorten the pulse widths .

理论分析了半导体量子点玻璃非本征吸收区透射系数与非线性光学系数之间的关系；

Numerical relations between nonlinear coefficient and transmission coefficient are analyzed theoretically .

ZnSe/SiO2半导体量子点玻璃的光谱特性

Spectral Property of ZnSe / SiO_2 Semiconductor Quantum Dots Glass

半导体微晶掺杂玻璃的制备方法及其二阶非线性光学性能探讨

Preparation and Second Order Nonlinear Optical Studies of Semiconductor Microcrystal Doped Glasses

对采用溶胶凝胶法制备的ZnSe/SiO2半导体量子点玻璃的光谱性质进行了测试分析。

Spectral properties of ZnSe / SiO2 semiconductor quantum dots glass prepared by sol-gel method were studied .

非晶态材料主要包括氧化物玻璃、高分子聚合物、非晶态半导体以及金属玻璃（非晶合金）。

Amorphous materials mainly include oxide glasses , macromolecule polymers , semiconductors in amorphous state and metallic glasses .

用溶胶凝胶法制备半导体纳米微晶玻璃具有工艺简单和所得产品纯度高、均匀性好的特点。

The preparation of nano_scale semiconductor doped nonlinear optical glasses by sol_gel process is simple and the product is pure and identical .

主要包括氧化物玻璃，高分子聚合物，非晶态半导体以及金属玻璃，由于其结构的无序性而表现出的独特物理与化学特性，已成为凝聚态物理与新材料设计的前沿课题。

Having unique physical and chemical properties due to their disorder structures , the investigation on such materials has been becoming the forefront of condensed physics and design to new materials .

本文简要介绍了玻璃中产生非线性光学效应的基本原理及其应用，并介绍了均质玻璃、含有机化合物及含半导体量子点玻璃的非线性光学性能、应用前景和研究动态。

The basic principle and applications of nonlinear optical effects appeared in glasses are briefly introduced , and the nonlinear optical properties potential applications and future trends of homogeneous glasses and the glasses containing organic compounds and semiconductor quantum dots are reviewed .