All-Fiber Self-Mixing Interferometer Based on DFB Laser and Phase Modulating Technique
Photonics Technology Letters, IEEE(2011)
摘要
All-fiber self-mixing interferometer (SMI) based on distributed-feedback (DFB) semiconductor lasers and phase modulating technique is introduced to measure the displacement of a vibrational target. Self-mixing interference occurs in a DFB laser by reflecting the light from a mirror-like or a rough target in front of the laser, and the phase is modulated by a fiber electrooptic modulator (EOM) in the external cavity. The sinusoidal phase modulating and demodulating technique is used to analyze the interference signal. The experimental results indicate that the movement of the target can be reconstructed by this method. Combining the optical fiber with self-mixing interference technique, the flexible structure and high-accuracy self-mixing interferometer can be obtained.
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关键词
vibrational target,fiber electrooptic modulator,Displacement measurement,electrooptic phase modulation,external cavity,distributed-feedback semiconductor lasers,self-mixing interference,DFB laser,displacement measurement,demodulating technique,optical fiber measurement,sinusoidal phase modulating technique,all-fiber self-mixing interferometer,distributed feedback lasers,optical fiber,electro-optical modulation,laser mirror,semiconductor lasers,interference signal,laser mirrors,interference (signal)
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