报道了改进型的光纤挤压式偏振控制器。
An improved fiber squeezer polarization controller is represented.
通过调整偏振控制器,就实现了单激光或双激光的增益控制。
By adjusting a polarization controller, single-or dual-laser gain control is realized.
线圈型保偏光纤偏振器的基本测试方法有偏振控制器法和消偏法。
The basic methods for coiled PM fiber-optic polarizer are polarization controller method and depolarization method.
单模光纤偏振器的基本测试方法有偏振控制器法和旋转波片法 ;
The basic methods for SM fiber-optic polarizer are polarization controller method and wave plate rotation method.
通过调节偏振控制器的状态,可以实现对波长振荡个数和波长间隔的控制。
The number of lasing wavelength and wavelength spaces can be controlled by changing the state of polarization controller.
在环形腔内加入光纤偏振控制器和具有高消光比的保偏环行器获得单偏振光。
Fiber polarization controller and polarization-maintaining optical circulator with high extinction ratio were incorporated in the loop cavity to acquire single polarization output.
通过对偏振扰偏器原理的分析,决定采用高速控制电路驱动偏振控制器的方法来实现高速扰偏器的设计。
Through analyzing the principle of polarization scrambler, high-speed polarization scrambler can be achieved by the use of high-speed control circuit drive polarization controller.
设计和研制了一套全光纤在线偏振参量测试系统,该系统由全光纤偏振控制器、全光纤在线偏振仪等组成。
Designed and built an all fiber in-line polarization parameter testing system. The main portions of this system are the all fiber polarization controller and the all fiber in-line polarimeter.
偏振控制器要求有快的响应速度,大的消光比,小的波动,并能无端复位或不需复位就可进行无端偏振态控制。
It requires fast response speed, big extinction ratio, small fluctuation with endless reset or reset-free SOP control.
该激光器由带单模尾纤输出的半导体激光器、光纤偏振控制器、PLZT电光陶瓷偏转器和输出凹面镜等组成。
The laser consists of a semiconductor laser with single mode fiber coupled output, polarization controller, PLZT electro-optic ceramic deflector, and output concave mirror.
偏振控制器PC是高速光纤通信系统研究中一个非常重要的器件,它可以将任意的输入光偏振态变换为任意形式的输出光偏振态。
PC, a key element in high rate optical fiber communication system, changes any input light polarization state into any desired output light polarization state.
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。
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。
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.
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