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Breaking the speed limitation of wavemeter through spectra-space-time mapping

Zheng Gao, Ting Jiang, Mingming Zhang, Yuxuan Xiong, Hao Wu, Ming Tang

2024Light Advanced Manufacturing12 citationsDOIOpen Access PDF

Abstract

Speckle patterns generated by the intermodal interference of multimode fibers enable accurate broadband wavelength measurements. However, the measurement speed is limited by the frame rate of the camera that captures the patterns. We propose a compact and cost-effective ultrafast wavemeter based on multimode and multicore fibers, which employs spectral–spatial–temporal mapping. The speckle patterns generated by multimode fibers enable spectral-to-spatial mapping, which is then sampled by a multicore fiber into a pulse sequence to implement spatial-to-temporal mapping. A high-speed single-pixel photodetector is employed to capture the pulse sequence, which is analysed using a multilayer perceptron to estimate the wavelength. The feasibility of the proposed wavelength estimation method is experimentally verified, achieving a measurement rate of 100 MHz with a resolution of 2.7 pm in a 1 nm operation bandwidth.

Topics & Concepts

Multi-mode optical fiberOpticsSpeckle patternUltrashort pulseWavelengthBandwidth (computing)BroadbandPixelFrame rateComputer scienceImage resolutionPhysicsOptical fiberLaserTelecommunicationsOptical Coherence Tomography ApplicationsAdvanced Optical Sensing TechnologiesAdvanced Fiber Optic Sensors
Breaking the speed limitation of wavemeter through spectra-space-time mapping | Litcius