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Humidity sensor based on a graphene oxide-coated few-mode fiber Mach-Zehnder interferometer

Xiaofeng Fan, Q. Wang, Min-Bo Zhou, Fan Liu, Hao-Jan Shen, Zhongchao Wei, F. Wang, Chunhua Tan, Hongyun Meng

2020Optics Express71 citationsDOIOpen Access PDF

Abstract

A relative humidity sensor based on a graphene oxide-coated few-mode fiber Mach-Zehnder interferometer (MZI) is proposed in this paper. The MZI was made by splicing a segment of the few-mode fiber (FMF) between two segments of a no-core fiber (NCF) and two segments of a single mode fiber (SMF) located outside the two NCFs. The core and cladding of the FMF acted as interferometric arms, while the NCFs acted as couplers for splitting and recombining light due to mismatch of mode field diameter. The cladding of the FMF was corroded with hydrofluoric acid, and a layer of graphene oxide (GO) film was coated on the corroded cladding of FMF via the natural deposition method. The refractive index of GO varied upon absorption the water molecules. As a result, the phase difference of the MZI varied and the wavelength of the resonant dip shifted with a change in the ambient relative humidity (RH). High humidity sensitivity of 0.191 and 0.061 nm/%RH in the RH range of 30-55% and 55-95%, respectively, were achieved experimentally. The high sensitivity, compact size, and simple manufacturing of the proposed sensor could offer attractive applications in fields of chemical sensors and biochemical detection.

Topics & Concepts

Materials scienceCladding (metalworking)InterferometryGrapheneMach–Zehnder interferometerCladding modeOpticsRefractive indexOptical fiberFiber optic sensorOptoelectronicsRelative humidityOxideFiberPolarization-maintaining optical fiberComposite materialNanotechnologyThermodynamicsPhysicsMetallurgyAdvanced Fiber Optic SensorsPhotonic and Optical DevicesPlasmonic and Surface Plasmon Research
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