Journal
IEEE SENSORS JOURNAL
Volume 23, Issue 9, Pages 9323-9332Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/JSEN.2023.3260206
Keywords
Fiber optic gyroscope; integrated optics; silica chip
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This article proposes a novel three-axis interferometric fiber optic gyroscope (IFOG) with an integrated coupler chip (ICC) fabricated on the silica platform. The test results show that the ICC has weak wavelength dependence and comparatively low insertion loss at 0.85 μm wavelength. With approximately 900 m of polarization-maintaining fiber coils, the three-axis IFOG exhibits a long-term stability of <0.16 degrees/h, satisfying the requirements of tactical grade systems. The novel IFOG scheme with ICC paves the way for research on chip-scale multiaxis IFOGs.
Chip-scale interferometric fiber optic gyroscope (IFOG) has caught growing attention for its huge application potential in the low-cost consumer electronics market. In this article, a novel three-axis IFOG is proposed and assembled with an integrated coupler chip (ICC) fabricated on the silica platform. The ICC realizes bidirectionally multichannel optical interconnection without waveguide crossings. The test results indicate the weak wavelength dependence and comparatively low insertion loss at 0.85 mu m of the ICC. With similar to 900-m polarization-maintaining fiber coils, the three-axis IFOG exhibits a long-term stability of <0.16 degrees/h, which satisfies the requirements of the tactical grade systems. The novel IFOG scheme with ICC paves the way for the research on chip-scale multiaxis IFOGs.
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