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High-Temperature and High-Pressure Fiber Microsphere Fabry–Perot Sensor Based on Vernier Effect and FBG

Zhengqiang Yan, Shanshan Zhu, Yanjun Zhang, Pinggang Jia, Jia Liu, Lei Liu, Fengtong Zhu, Huiqing Niu, Guowen An

2023IEEE Sensors Journal23 citationsDOI

Abstract

A pressure and temperature sensor based on dual Fabry–Perot interferometers (F-PIs) using Vernier effect and fiber Bragg grating (FBG) in a hollow silica microsphere-cavity (HSMC) structure is demonstrated theoretically and experimentally. The sensor consists of an F-P cavity formed by inserting the FBG into the HSMC and a reference F-P cavity. Two structures are connected by a 50% coupler to generate the Vernier effect. The change of external pressure will change the length of the microsphere F-P cavity. Utilizing the characteristics that FBG is temperature-sensitive and not effected by pressure, the simultaneous detection of temperature and pressure can be realized by demodulating equation. With a pressure sensitivity of 49.5 nm/MPa and a temperature sensitivity of 14.3 pm/°C, the sensor achieves pressure detection at 300 °C ranging from 0 to 0.8 MPa. The sensor has the characteristics of temperature compensation, high production efficiency, low cost, strong robustness, self-encapsulation, and so on. It has a broad prospect in the field of high-temperature and high-pressure detection.

Topics & Concepts

Materials scienceFabry–Pérot interferometerFiber Bragg gratingPressure sensorTemperature measurementOpticsOptoelectronicsOptical fiberPressure measurementMechanical engineeringQuantum mechanicsPhysicsThermodynamicsWavelengthEngineeringAdvanced Fiber Optic SensorsAdvanced Fiber Laser TechnologiesPhotonic and Optical Devices
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