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Dispersion Effects of High-Order-Mode Fiber on Temperature and Axial Strain Discrimination

Dispersion Effects of High-Order-Mode Fiber on Temperature and Axial Strain Discrimination
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摘要 A new approach utilizing effects of dispersion in the high-order-mode fibers (HOMFs) to effectively discriminate changes in environmental temperature and axial strain is proposed and experimentally demonstrated. Experimental characterization of a HOMF-based fiber modal interferometer with a sandwich fiber structure exhibits excellent agreements with numerical simulation results. A Fourier transform method of interferometry in the spatial frequency domain is adopted to distinguish mode coupling between different core-guided modes. Distinct phase sensitivities of multiple dispersion peaks are extracted by employing a novel phase demodulation scheme to realize dual-parameter sensing. A new approach utilizing effects of dispersion in the high-order-mode fibers (HOMFs) to effectively discriminate changes in environmental temperature and axial strain is proposed and experimentally demonstrated. Experimental characterization of a HOMF-based fiber modal interferometer with a sandwich fiber structure exhibits excellent agreements with numerical simulation results. A Fourier transform method of interferometry in the spatial frequency domain is adopted to distinguish mode coupling between different core-guided modes. Distinct phase sensitivities of multiple dispersion peaks are extracted by employing a novel phase demodulation scheme to realize dual-parameter sensing.
出处 《Photonic Sensors》 SCIE EI CAS CSCD 2015年第3期224-234,共11页 光子传感器(英文版)
关键词 Optical fiber sensor temperature and strain discrimination DISPERSION Optical fiber sensor, temperature and strain discrimination, dispersion
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