矩形玻璃微血管近红外光学共振的相位检测

2020 IEEE International Instrumentation and Measurement Technology Conference (I2MTC) Pub Date : 2020-05-01 DOI:10.1109/I2MTC43012.2020.9129630

V. Bello, S. Merlo

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引用次数: 3

摘要

在这项工作中，我们提出了一种光谱干涉技术，用于检测矩形玻璃微血管中低成本光学谐振器共振的波长位置。建立了一个详细的理论模型来计算放置在迈克尔逊方案测量臂末端的微器件的光谱反射率。利用以1.55µm为中心的平坦发射光谱的宽带光源和在共输入输出光路上的2x1光纤耦合器提供的读出辐射，实验结果与预期的理论行为一致。通过监测作为波长函数记录的干涉信号上陡相位跳变的位置，可以清楚地检测到这些简单光学谐振器对应于反射率最小值的光学谐振。

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Phase detection of the NIR optical resonances of rectangular glass micro-capillaries

In this work, we propose a spectral interferometric technique for detecting the wavelength position of the resonances of low-cost optical resonators, consisting in rectangular glass micro-capillaries. A detailed theoretical model was developed to calculate the spectral reflectivity of the micro-devices when they are placed at the end of the measuring arm of a Michelson scheme. Using the readout radiation provided by a broadband light source with a flat emission spectrum centered at 1.55 µm and a 2x1 fiberoptic coupler on the common input-output optical path, experimental results were found in good agreement with the expected theoretical behavior. The optical resonances, corresponding to reflectivity minima, of these simple optical resonators are clearly detected by monitoring the positions of steep phase jumps on the interferometric signal recorded as a function of the wavelength.

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2020 IEEE International Instrumentation and Measurement Technology Conference (I2MTC)

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