Litcius/Paper detail

Modeling and performance evaluation of in-line Fabry-Perot photothermal gas sensors with hollow-core optical fibers

Haihong Bao, Yingzhen Hong, Wei Jin, Hoi Lut Ho, Chao Wang, Shoufei Gao, Yingying Wang, Pu Wang

2020Optics Express63 citationsDOIOpen Access PDF

Abstract

We study photothermal phase modulation in gas-filled hollow-core optical fibers with differential structural dimensions and attempt to develop highly sensitive practical gas sensors with an in-line Fabry-Perot interferometer for detection of the phase modulation. Analytical formulations based on a hollow-capillary model are developed to estimate the amplitude of photothermal phase modulation at low modulation frequencies as well as the -3 dB roll-off frequency, which provide a guide for the selection of hollow-core fibers and the pump modulation frequencies to maximize photothermal phase modulation. Numerical simulation with the capillary model and experiments with two types of hollow-core fibers support the analytical formulations. Further experiments with an Fabry-Perot interferometer made of 5.5-cm-long anti-resonant hollow-core fiber demonstrated ultra-sensitive gas detection with a noise-equivalent-absorption coefficient of 2.3×10 −9 cm -1 , unprecedented dynamic range of 4.3×10 6 and <2.5% instability over a period of 24 hours.

Topics & Concepts

OpticsMaterials scienceFabry–Pérot interferometerInterferometryModulation (music)Phase modulationOptical fiberCore (optical fiber)Photothermal therapyFiber optic sensorAmplitude modulationFrequency modulationPhase noiseOptoelectronicsPhysicsWavelengthAcousticsTelecommunicationsBandwidth (computing)Computer scienceAdvanced Fiber Optic SensorsSpectroscopy and Laser ApplicationsPhotonic Crystal and Fiber Optics
Modeling and performance evaluation of in-line Fabry-Perot photothermal gas sensors with hollow-core optical fibers | Litcius