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Ultra-compact silicon-microcap based improved Michelson interferometer high-temperature sensor

Yang Han, Bo Liu, Yongfeng Wu, Yaya Mao, Jing Wu, Lilong Zhao, Tong Nan, Jin Wang, Rong Tang, Yulan Zhang, Yan Liu

2021Optics Express49 citationsDOIOpen Access PDF

Abstract

An ultra-short high-temperature fiber-optic sensor based on a silicon-microcap created by a single-mode fiber (SMF) and simple fusion splicing technology is proposed and experimentally demonstrated. A section of the SMF with a silicon-microcap at one end is connected to the "peanut" structure to build the microcap-based optical fiber improved Michelson interferometer (MI). The optimal discharge parameters of microcap and length of SMF has been investigated to achieve the best extinction ratio of 6.61 dB. The size of this microcap-based improved MI sensor is 560 µm and about 18 times shorter compared to the current fiber tip interferometers (about 10 mm). Meanwhile, it showed good robustness during the two heating-cooling cycles and the duration period stability test at 900 °C. This microcap-based improved MI sensor with the smaller size, simple fabrication, low cost, high reliability, and good linearity within a large dynamic range is beneficial to practical temperature measurement and massive production.

Topics & Concepts

Materials scienceFusion splicingInterferometryOpticsOptical fiberAstronomical interferometerFiber optic sensorMichelson interferometerSiliconExtinction ratioLinearityOptoelectronicsWavelengthElectronic engineeringPhysicsEngineeringAdvanced Fiber Optic SensorsPhotonic and Optical DevicesAdvanced Fiber Laser Technologies
Ultra-compact silicon-microcap based improved Michelson interferometer high-temperature sensor | Litcius