Transmissive resonator optic gyro based on silica waveguide ring resonator

A transmissive resonator optic gyro (TROG) based on silica waveguide ring resonator with improved long-term bias stability is reported in this paper. The modeling of a transmissive resonator used in optic gyro is carried out. The polarization dependence of resonator and the influences of phase modul...

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Published in:Optics express 2014-11, Vol.22 (22), p.27565-27575
Main Authors: Feng, Lishuang, Wang, Junjie, Zhi, Yinzhou, Tang, Yichuang, Wang, Qiwei, Li, Haicheng, Wang, Wei
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cited_by cdi_FETCH-LOGICAL-c329t-105cebf8c30efc3e43c90b56e3c90a44608949abdb1c3c53eb5ba04aac0a41e23
cites cdi_FETCH-LOGICAL-c329t-105cebf8c30efc3e43c90b56e3c90a44608949abdb1c3c53eb5ba04aac0a41e23
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container_issue 22
container_start_page 27565
container_title Optics express
container_volume 22
creator Feng, Lishuang
Wang, Junjie
Zhi, Yinzhou
Tang, Yichuang
Wang, Qiwei
Li, Haicheng
Wang, Wei
description A transmissive resonator optic gyro (TROG) based on silica waveguide ring resonator with improved long-term bias stability is reported in this paper. The modeling of a transmissive resonator used in optic gyro is carried out. The polarization dependence of resonator and the influences of phase modulator's residual intensity modulation on the gyro output are analyzed. The resonator is simulated, designed, fabricated, tested and used to build up a TROG prototype. A bias stability of 0.22°/s over one hour test with an integration time of 10s is successfully demonstrated. No obvious drift has been found from the Allan variance analysis result of a 10000s test data, which means that the TROG prototype has an improved long-term drift characteristic.
doi_str_mv 10.1364/OE.22.027565
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title Transmissive resonator optic gyro based on silica waveguide ring resonator
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