Transverse-load, strain, temperature, and torsion sensors based on a helical photonic crystal fiber

Cailing Fu; Yiping Wang; Shen Liu; Zhiyong Bai; Jian Tang; Laipeng Shao; Xueya Liu

doi:10.1364/OL.44.001984

Optics Letters
Vol. 44,
Issue 8,
pp. 1984-1987
(2019)
•https://doi.org/10.1364/OL.44.001984

Transverse-load, strain, temperature, and torsion sensors based on a helical photonic crystal fiber

Cailing Fu, Yiping Wang, Shen Liu, Zhiyong Bai, Jian Tang, Laipeng Shao, and Xueya Liu

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Cailing Fu, Yiping Wang, Shen Liu, Zhiyong Bai, Jian Tang, Laipeng Shao, and Xueya Liu, "Transverse-load, strain, temperature, and torsion sensors based on a helical photonic crystal fiber," Opt. Lett. 44, 1984-1987 (2019)

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Abstract

In this Letter, we demonstrate a fabrication method of a helical photonic crystal fiber (HPCF) and an inflated HPCF (IHPCF) by use of an inflation-assisted hydrogen-oxygen flame heating technique. The transverse load, strain, temperature, and mechanical torsion properties of the HPCF and IHPCF were investigated experimentally to develop high-sensitivity sensors. The experimental results show that the transverse-load sensitivity could be greatly enhanced by means of enlarging the size of the air holes in the IHPCF; that is, the transverse-load sensitivity, i.e., $15.50 nm / (N \cdot {mm}^{- 1})$ , of the IHPCF is two times higher than the transverse-load sensitivity of the HPCF, i.e., $4.45 nm / (N \cdot {mm}^{- 1})$ . Moreover, both the HPCF and IHPCF exhibit high strain, temperature, and torsion sensitivities. Hence, such an HPCF/IHPCF could have great potential in sensing applications.

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Optics Letters