The field distribution is the main factor that can affect the characteristics of electro-optic devices.
电场分布是影响电光器件特性的主要因素。
The ferroelectric memory devices utilizing the property of polarization reverse, nonlinear optic devices and electron optic devices had been applied in some case.
利用极化反转特性的铁电存贮器件以及非线性光学效应和电光效应已部分得到应用。
Broad attention and research have been devoted to poled polymers due to its high response speed and the easy processing technics in the fields of the integrated polymer electro-optic devices.
极化聚合物以其响应速度快、制作工艺相对简单在聚合物集成光电器件领域得到了广泛的关注和研究。
Cyberspace has become symbolic of the computing devices, networks, fibre-optic cables, wireless links and other infrastructure that bring the internet to billions of people around the world.
网络空间已成为计算机设备、网络、光纤电缆、无线连接和其他基础设施的象征,这些基础设施将互联网带给全世界数十亿人。
The size of several football pitches, these data centres are filled with thousands of powerful computers and storage devices and are hooked up to the internet via fast fibre-optic links.
在几个足球场大的地方,这些数据中心充满了数千台大型计算机和存储设备,并用高速光纤接入因特网。
It works even on devices without advanced optic hardware such as a macro lens or auto-focus.
它的工作原理,即使在没有先进的,如微距镜头或自动对焦光学硬件设备。
Devices such as phase modulators, optic switches and even optic waveguide resonators can be integrated on a multi functional integrated optic chip.
光纤陀螺中的一些器件如相位调制器和光学开关、消光器甚至光波导谐振腔都可以集成在一个多功能集成光学芯片上。
Optical coupling and transmission performing with optic fiber and fiber optic face plate, a new sector beam linear array scanning X-ray detector technique based on plane array CCD devices is proposed.
提出了一种基于面阵CCD器件,采用光纤和光纤面板进行光耦合及传输的扇形束线阵扫描X射线新型探测器技术。
The influences of various factors of dielectric target in certain pick-up tubes, storage devices and electro-optic display devices on the resolution are studied in this paper.
本文研究了在某些摄象器件、存贮器件或电光显示器件中介质靶诸因素对分辨率的影响。
The course is also intended to introduce students to noise models for semiconductor devices and to applications of optoelectronic devices to fiber optic communications.
本课程也计划介绍半导体元件的杂讯模型以及光电元件于光纤通讯的应用。
Two novel fibre devices, fibre optic frequency shifter and fibre optic polarization controller, are employed in this system. The principle and design method for the two key devices are described.
在该系统中采用了自行研制设计的实现全光纤化的两个关键光纤元件:普通单模光纤频率偏移器和普通单模光纤偏振控制器,介绍了此两光纤元件的基本工作原理和设计方法。
The devices will be widely used in optic communication and real time signal processing, such as correlation, convolution, spectrum analysis and optic vector calculation.
在光通信以及各类实时信号处理,如相关、卷积、频谱分析、矩阵光计算等领域具有广泛的应用前景。
The devices will be widely used in optic communication and real time signal processing, such as correlation, convolution, spectrum analysis and optic vector calculation.
在光通信以及各类实时信号处理,如相关、卷积、频谱分析、矩阵光计算等领域具有广泛的应用前景。
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