Highly sensitive curvature sensor based on asymmetrical twin core fiber and multimode fiber

A highly sensitive curvature sensor based on asymmetrical twin core fiber (TCF) and multimode fiber (MMF) is proposed and experimentally demonstrated. By applying the coupled-mode theory and equivalent refractive index model, we theoretically analyze the uncoupled feature of the TCF and the relationship between peak wavelength and the curvature. Two segments of MMF used as beam splitter and combiner are embedded on the two ends of the TCF, and the extinction ratio of the comb transmission spectrum is about 15 dB. The experimental result shows that the curvature sensitivity of the sensor can be achieved as high as 103.35 nm/m(-1) ranging from 0.24 m(-1) to 0.6 m(-1), and the strain sensitivity is up to -4.01 pm/mu epsilon in the range from 0 mu epsilon 1400 mu epsilon. The simultaneous detection of the curvature and strain can be realized. The temperature sensitivity is 0.431 nm/C in the range from 40 degrees C to 70 degrees C. This fiber sensor exhibits the advantages of low cost, easy and repeated fabrication, and high sensitivity.