Temperature Sensor Based on Self-Interference of a Single Long-Period Fiber Grating (Special Issue on Optical Fiber Sensors)

概要

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A novel temperature sensor device based on a conventional long-period fiber grating but having an improved sensing resolution is presented. By forming a reflector at one cleaved end of the fiber embedding a long-period grating, a fine interference fringe pattern was obtained within the conventional broadband resonant spectrum of the grating. Due to the fine internal structure of the reflection spectrum of the proposed device, the accuracy in reading the temperature-induced resonant wave-length shift was improved. The formation of the self-interference fringe is analyzed and its properties are discussed in detail. The performance of the proposed device is analyzed by measuring the resonant wavelength shift of the device placed in a hot oven under varying temperature. The rate of the fringe shift is measured to be 55±1pm / ℃. The rms deviation is 10pm over a 100℃ dynamic range, which corresponds to 0.2℃ in rms temperature deviation. The thermal variation of the differential effective index of the fiber is calculated to be (0.3±0.1)×10^<-6> / ℃ by comparing the analytic calculations with the experimental results. The interference fringe shift is revealed to be inversely proportional to the differential effective group index of the fiber, which implies that the shifting rate strongly depends on the type of fibers and also on the order of the involved cladding mode.
社団法人電子情報通信学会の論文
2000-03-25