熔锥型光纤器件的光学性能由熔锥区的微观结构和形貌决定,而微观结构和形貌又由工艺条件决定。
The optical performance of the fused-taper fiber device is determined by microstructure and morphology of the fused taper region, which are determined by technological conditions.
本论文研究利用CO_2激光作为热源加工制备熔锥光纤耦合型光学球微谐振腔器件。
In this paper, we had studied the CO_2 laser fabrication of microsphere resonators coupled by biconical tapered fibers.
本文研究了利用光学纤维来制作光纤网格器件的方法。
A new method of preparing the raster plate with optical fiber has been developed.
介绍一种紧凑的、能以较低输入光功率工作的光学双稳器件,由光电检测器、光纤定向耦合器和半导体激光二极管组合而成的。
A compact, low input power optical bistable device, combined with photodetector and optical fiber directional coupler and semiconductor laser diode, was presented.
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。
Devices such as phase modulators, optic switches and even optic waveguide resonators can be integrated on a multi functional integrated optic chip.
分支是集成光学中的重要器件单元,广泛应用于调制器,光开关,光分路器的器件中,尤其是作为中高精度光纤陀螺系统的核心器件。
Y branches is important in the integrated optical devices unit, it is widely used in modulator, optical switching, optical splitter devices, especially in high-precision FOG.
光纤光栅是一种新兴的光学器件,在光纤通信和光纤传感器等方面有着重要应用。
Fiber grating is a kind of new optical devices which are playing important roles in optical communication and optical sensors.
通过建立光纤电流互感器各主要光学器件的琼斯矩阵表达式,推出了反射式光纤电流互感器的干涉表达式,并分析了各光学器件主要参量对其测量准确度的影响。
Through building the expression of the main optical parts of the FOCT and the expression of interference, the precision which is affected by the parameters of the main optical parts was analyzed.
由于相位模板法仅使用一个光学器件,因而减少了光纤光栅制造系统的复杂性,是光纤布拉格光栅写入法中最有前途、使用最广泛并且具有本征稳定性的一种方法。
Using only one optic element, the phase mask provides a robust and inherently stable method for reproducing fiber Bragg gratings, and reduces the complexity of the fiber grating fabrication system.
它具有简单的几何形状和优秀的光学特性,可以用于光纤通信传输系统,也可以用作成像光学元件及光传感器件。
Because of simple geometry and excellent optical performance, it can be used in optical fiber communication system, and as imaging and sensing devices.
它具有简单的几何形状和优秀的光学特性,可以用于光纤通信传输系统,也可以用作成像光学元件及光传感器件。
Because of simple geometry and excellent optical performance, it can be used in optical fiber communication system, and as imaging and sensing devices.
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