Integrated Optical Interferometers for Low Coherence Sensing Applications

CLEO/Europe Conference on Lasers and Electro-Optics Pub Date : 1998-09-14 DOI:10.1109/CLEOE.1998.719163
A. McLaughlin, J. Bonar, M. Jubber, F. Camacho, J. Aitchison
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Abstract

Fibre optic low-coherence interferometry is of great interest for industrial sensing applications In general, systems use a low-coherence source to illuminate two interferometers with matched optical path differences (OPD), greater than the source coherence length. Typically, the first interferometer is used as a sensor, for example micro-machined silicon resonant sensors [1], where a reference and modulated sensing signal are derived from the sensor head. Due to the large OPD the two signals can propagate together without interference. The second interferometer acts as a detector, where due to its matched OPD, the signals from the sensor head are brought back into coherence and interfere.
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集成光学干涉仪在低相干传感中的应用
光纤低相干干涉测量在工业传感应用中具有很大的兴趣。一般来说,系统使用低相干光源来照亮两个具有匹配光程差(OPD)的干涉仪,其光程差大于光源相干长度。通常,第一个干涉仪被用作传感器,例如微机械硅谐振传感器[1],其中参考和调制的传感信号来自传感器头。由于OPD大,两个信号可以一起传播而不受干扰。第二个干涉仪作为检测器,由于其匹配的OPD,来自传感器头的信号被带回相干并干扰。
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CLEO/Europe Conference on Lasers and Electro-Optics
CLEO/Europe Conference on Lasers and Electro-Optics
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