The device could be used as a sort of optical switch.
反激光器装置可能会被用作一种光学开关。
Optical switch is the key part in all optical network.
光开关是全光网络中的关键器件。
Optical switch is the key component in optical switching system.
光开关是光交换等系统中的关键器件。
The basic concept of optical switch, MEMS and MEMS optical switch were introduced.
介绍了光开关、MEMS和MEMS光开关的基本概念。
And the parameter measurement method of PEPC electro-optical switch has been designed.
设计了普克尔盒开关特性参数的测量方法。
Expansibility is a very important performance for the design of MEMS optical switch array.
在MEMS光开关阵列设计中,扩展性是一项非常重要的指标。
In this thesis, a series of SOI-MMI optical waveguide components and optical switch es are studied.
本文开展了一系列基于SOI材料的MM I型光波导器件和光开关的研究。
Optical switch is a kind of important passive optical components in all-optical communication network.
光开关是全光通信网络中的一种重要的光无源器件。
MOEMS optical switch based on electrostatic driving and vertical micro mirror technology is presented.
提出了一种基于静电驱动和垂直微反射镜技术的MOEMS光开关。
A MOEMS optical switch based on electrostatic driving and vertical micro mirror technology is presented.
提出了一种基于静电驱动和垂直微反射镜技术的MOEMS光开关。
This thesis presents a study on the non-silicon based MEMS optical switch and variable optical attenuator.
本硕士论文对基于非硅基微加工技术的光开关及可调光衰减器的设计制作与分析进行了研究。
In the meantime, the application of optical switch and linearity scanning have been discussed in this paper.
同时,对光束控制在光开关、线性扫描等方面的应用做了相应的研究,此技术有广阔的应用前景。
Optical switch, optical fiber arrangement member, their manufacturing method, and optical fiber arranging method.
光开关,光纤排列构件,它们的制造方法,以及光纤的排列方法。
Firstly, from the application of optical switch in AON, a variety of optical switch technologies are being compared.
首先,从光开关在全光网络的应用出发,比较了各种光开关技术的性能。
The change of the refractive index controlled by the incoherent irradiation can be applied in the all optical switch.
这种在非相干辐照控制下折射率的迅速改变有望应用于全光学开关器件。
This paper presents theoretical analysis on the dynamic response of a MOEMS optical switch with a slant lower electrode.
本文从MOEMS倾斜下电极扭臂式光开关出发,介绍了动力学分析方法的过程。
The large aperture KDP electro-optical switch is a key unit for the new high-power laser multi-pass amplification system.
大口径KDP电光开关是新一代高功率激光器多程放大系统的关键部件。
NORC based optical switch USES direct current light as light source whose input and output are equivalent two optic level.
基于非线性环形腔(NORC)的光开关以直流光为光源,输入输出为同等的二光平。
Angle deflection is an effective operation on optics, which is widely used in optical switch and variable optical attenuator.
角度偏转是光操作的一种方式,在光开关和光衰减器有广泛的应用。
Refractive index, chromatic dispersion and absorption coefficient are material figures of merit for ultrafast all optical switch.
折射率、色散和吸收系数是用于超高速全光开关的光学材料的重要品质指数。
The implement of optical interconnection and optical switching lies on the development of optical switch, photodetector (PD), laser etc.
光互连与光交换系统的实现有赖于光开关,光探测器,激光器等光电子器件的进展。
Optical switch phenomenon of 7-hydroxyquinoline with excited state proton transfer effect was investigated using picosecond laser pulses.
本文研究了质子转移型有机分子7 -羟基喹啉在皮秒激光脉冲作用下的光开关现象。
Microsecond optical switch is observed and BR molecule distributing of different intermediate is analyzed when the exciting pulse is over.
观察到了微秒量级的快速光开关现象,并分析了激发光脉冲作用结束时,各中间态上细菌视紫红质分子的分布。
It can be used to optimize the all optical switch design for different materials (self focus and defocus), nonlinear indices and wavelengths.
此设计方法可以对不同的材料(自聚焦、自散焦)、不同的非线性折射率和波长等进行波导全光开关优化设计。
In this paper, the performance of the compact PEPC electron-optical switch and its application in multipass amplification system are described in detail.
介绍了紧缩型等离子体电极电光开关特性,以及在多程放大系统中的应用。
Having the characteristics of high data band and low time delay, optical switch technology is considered as a technology for the next generation network.
光交换技术由于其高带宽、低延时的特点,被认为是下一代的交换网络中的交换技术。
Based on the theory of total internal reflection (TIR) and injection effect of photo-induced carriers, a Y-branching TIR all-optical switch is fabricated.
基于全内反射原理和光生载流子注入效应,研究了一种Y分叉全内反射型全光开关。
Using an optical switch, this ramp up time can be reduced to less than a tenth of a picosecond, delivering peak laser power to the plasma on a faster time scale.
使用光开关,可以把这种功率的上升过程缩短到小于0.1ps,在更短的时间内激光以峰值功率到达等离子体。
Using an optical switch, this ramp up time can be reduced to less than a tenth of a picosecond, delivering peak laser power to the plasma on a faster time scale.
使用光开关,可以把这种功率的上升过程缩短到小于0.1ps,在更短的时间内激光以峰值功率到达等离子体。
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