External Optical Feedback Induced Noise in DFB Fiber Laser Sensor System |
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Authors: | Yue-Feng Wu Fang Li Tuan-Wei Xu Yu-Liang Liu |
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Affiliation: | Optoelectronic System Laboratory, Institute of Semiconductors. Chinese Academy of Sciences, Beijing. 100083, China |
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Abstract: | External optical feedback effects due to reflection, Rayleigh backscattering and coherent Rayleigh backscattering in fiber distributed feedback (DFB) fiber laser sensor system have been investigated. If the feedback intensity exceeds critical amount, excess noise would be induced in the demodulator. The maximum tolerable intensity back-reflection coefficient Rc and backscattering coefficient Sc into a fiber DFB laser with lead fiber length from 1 m to 37.5 km before the onset of instabilities are shown. Rc is found to decrease with increasing lead fiber length while Sc was relatively invariable with varying fiber length. The coherent Rayleigh backscattering (CRBS) would induce neglectable noise with a lead fiber exceeding 13.5 Pan. To eliminate these noises, one or two isolators should be incorporated in the system. |
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Keywords: | Coherent Rayleigh backscattering external optical feedback Rayleigll backscattering reflection |
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