A simplified version of an OCT system using a fiber-based Michelson interferometer-type configuration is illustrated in Figure 1.
图1是OCT系统的一个简化形式,该系统使用光纤迈克耳逊干涉仪类型的配置。
The initial phase difference of the fiber interferometer is calculated by measuring the interference photocurrent and the photocurrents from the two fiber arms based on a temperature control plat.
利用恒温控制平台,通过测量干涉光电流和干涉仪两臂光电流的方法,实现了对全光纤干涉仪两臂初相位差的测量。
A piezoelectric ceramic, based on the converse piezoelectric effect, was used as optical phase modulator to design a fiber differential interferometer.
基于压电陶瓷的逆压电效应,采用压电陶瓷作为光相位调制器设计了光纤微分干涉仪。
Based on the principle of the differentiating interferometer, a novel optical fiber sound sensor was presented.
基于微分干涉仪原理,建立了一套新型光纤声传感器系统。
The principle of fiber phase modulation is described clearly. The basic principium of fiber-optic acoustic sensor is vividly depicted based on the Michelson-type interferometer.
阐述光纤相位调制机理,结合迈克尔逊型干涉结构探讨光纤声传感的基本思想和原理。
The system is based on Michelson interferometer. It USES a fiber laser with narrow linewidth as light source, and adopts homodyne demodulation with phase generated carrier scheme to restore signal.
该系统基于迈克尔逊干涉仪结构,以窄线宽光纤激光器为光源,采用相位载波零差解调方案实现信号的还原。
A comb-filter based on Mach-Zehnder interferometer (MZI) is experimentally fabricated by splicing a section of single mode twin-core fiber (TCF) between two single mode fibers (SMFs).
通过将一根单模双芯光纤熔接在两根单模光纤之间,实验制得全光纤马赫曾德尔干涉仪型梳状滤波器。
A fiber optic ultrasonic sensor based on Fizeau interferometer for the measurement of ultrasonic wave propagated on the surface of a solid plate has been proposed and demonstrated.
验证了一种基于光纤Fizeau干涉仪的声发射传感器,可用于固体表面传播的超声波的检测。
A fiber optic ultrasonic sensor based on Fizeau interferometer for the measurement of ultrasonic wave propagated on the surface of a solid plate has been proposed and demonstrated.
验证了一种基于光纤Fizeau干涉仪的声发射传感器,可用于固体表面传播的超声波的检测。
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