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High-sensitivity micro-strain sensing using a broadband wavelength-tunable thulium-doped all-fiber structured mode-locked laser

Juan Wang, Siyu Ge, Hongfei Ren, Tao Huang, Peilong Yang, Peipeng Xu, Shengchuang Bai, Shixun Dai, Jianke Du, Qiuhua Nie

2021Optics Letters17 citationsDOI

Abstract

We demonstrate a thulium-doped mode-locked fiber laser with ultra-broadband wavelength tunability for micro-strain sensing based on the multimode interference (MMI) effect in single-mode-multimode-single-mode (SMS) fiber configuration. The homemade SMS device with high performance is fusion spliced in the laser cavity, and the developed dispersion precisely managed the all-fiber structured mode-locked picosecond laser with a record-breaking wavelength tuning range from 1976 to 1916 nm while exerting axial strain on this SMS device. We experimentally explored the regularity between the strain and the central-wavelength shift of the mode-locked pulse, and for the first time to the best of the authors' knowledge, achieved the precise in-line axial strain measurement from 0 to 5385 µɛ by using the tunable ultrafast-laser-based sensor, and sensitivity is up to -11.5 pm/µɛ. With high compactness and durability, this sensor has advantages in real-time dynamic measurement over other passive devices, thus will undoubtedly find various application scenarios.

Topics & Concepts

Materials scienceOpticsLaserFiber laserBroadbandMulti-mode optical fiberPicosecondFiber Bragg gratingOptoelectronicsWavelengthDispersion (optics)Sensitivity (control systems)Fiber optic sensorOptical fiberInterference (communication)Photonic-crystal fiberTunable laserSolid-state laserPolarization-maintaining optical fiberDispersion-shifted fiberDistributed feedback laserRefractive indexMode-lockingSemiconductor laser theoryFiberGraded-index fiberAdvanced Fiber Laser TechnologiesAdvanced Fiber Optic SensorsPhotonic Crystal and Fiber Optics