Temperature sensing by hybrid interferometer based on Vernier like effect

Temperature sensing by hybrid interferometer based on Vernier like effect

•A temperature sensitive hybrid interferometer has been developed and experimentally tested.•The temperature sensor structure involves Michelson and Fabry Perot interferometers.•The structure consists of MMF, DSHF and a piece of hollow core fiber partially filled with NOA65.•Owing to the Vernier-lik...

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Bibliographic Details
Published in:Optical fiber technology Vol. 64; p. 102538
Main Authors: Abbas, Lashari Ghulam, Li, Hao
Format: Journal Article
Language:English
Published: Elsevier Inc 01-07-2021
Subjects:
Hollow core fiber
Michelson interferometers
Temperature
Hollow core fiber
Temperature
Michelson interferometers
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Summary:•A temperature sensitive hybrid interferometer has been developed and experimentally tested.•The temperature sensor structure involves Michelson and Fabry Perot interferometers.•The structure consists of MMF, DSHF and a piece of hollow core fiber partially filled with NOA65.•Owing to the Vernier-like effect, we developed a novel temperature sensor.•This kind of sensing device has applications in the biological fields. A temperature sensitive hybrid interferometer is developed and tested experimentally. The hybrid interferometer consists of a Michelson interferometer (MI) cascaded with a Fabry-Perot interferometer (FPI). It is fabricated by successively fusion splicing a single-mode fiber (SMF), a small section of multi-mode fiber (MMF), double side hole fiber (DSHF) and hollow Core fiber (HCF) together. The end of the HCF is filled with a thermosensitive polymer to form a reflecting surface of the FPI. The free spectral range of the MI and the FPI are designed to similar so that the Vernier-like effect can be generated. The Vernier Effect and the high thermal expansion coefficient of the polymer filled into the HCF enhance the temperature sensitivity of the hybrid interferometer. The maximum temperature sensitivity of 710.9 pm/°C has been achieved through experiments, which is much higher than silica-based temperature sensors.
ISSN:1068-5200
1095-9912
DOI:10.1016/j.yofte.2021.102538