Retraction Notice: Interferometric Air-Core Anti-Resonant Fiber Optic Gyroscope With Enhanced Thermal Stability

Miao Yan; Kun Zhao; Xiaoming Zhao; Wei Luo; Qi Yao; Hongye Li; Hu Liang

Journal of Lightwave Technology
Vol. 41,
Issue 22,
pp. 7054-7054
(2023)

Retraction Notice: Interferometric Air-Core Anti-Resonant Fiber Optic Gyroscope With Enhanced Thermal Stability

Miao Yan, Kun Zhao, Xiaoming Zhao, Wei Luo, Qi Yao, Hongye Li, and Hu Liang

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Miao Yan, Kun Zhao, Xiaoming Zhao, Wei Luo, Qi Yao, Hongye Li, and Hu Liang, "Retraction Notice: Interferometric Air-Core Anti-Resonant Fiber Optic Gyroscope With Enhanced Thermal Stability," J. Lightwave Technol. 41, 7054-7054 (2023)

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Abstract

The use of a quadrupolar-wound coil of conjoined-tube anti-resonant fiber (CTF) in an interferometric air-core fiber optic gyroscope (FOG) is proposed and demonstrated. The CTF coil has low transmission loss and high modal purity, resulting in a long-term bias stability of 0.016 deg/h for the integration time of 1000 s. Furthermore, when compared to a gyro operated with conventional polarization-maintaining fiber (PMF) coil of the same length and diameter, the conjoined-tube anti-resonant fiber optic gyroscope (CTFOG) has an 11.2-fold reduction in thermal sensitivity, rendering the CTF a promising technological approach to efficiently improve the thermal stability of FOG in the future.

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Journal of Lightwave Technology