2023
DOI: 10.1088/1674-1056/ac81a9
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Design and simulation of a silicon-based hybrid integrated optical gyroscope system

Abstract: Combining silicon-based lithium niobate modulator and silicon-based Si3N4 resonator with silicon-based photonics technology, a highly systematic design of hybrid integrated optical gyroscope with enhanced reciprocity sensitivity and dual micro-ring structure is proposed for the first time in the paper, and the relationship between device’s structural parameters and optical performance is analyzed by constructing a complete simulation link, which provides a theoretical design reference for improving the system … Show more

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Cited by 2 publications
(1 citation statement)
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“…Gyroscopes play a crucial role in inertial navigation and guidance systems, particularly in the commercial and military fields. [1] Among these, micro-optical gyroscopes with small ring resonators, including those in chip-based form, are highly promising due to their potential for high precision, low cost, low power consumption and miniaturization. Much attention has been devoted to improving the precision of micro-optical gyroscopes, including noise suppression, [2][3][4] boosting the quality factor of the resonator, [5,6] optimizing the optical structure [7][8][9] and exploring novel signal detection techniques.…”
Section: Introductionmentioning
confidence: 99%
“…Gyroscopes play a crucial role in inertial navigation and guidance systems, particularly in the commercial and military fields. [1] Among these, micro-optical gyroscopes with small ring resonators, including those in chip-based form, are highly promising due to their potential for high precision, low cost, low power consumption and miniaturization. Much attention has been devoted to improving the precision of micro-optical gyroscopes, including noise suppression, [2][3][4] boosting the quality factor of the resonator, [5,6] optimizing the optical structure [7][8][9] and exploring novel signal detection techniques.…”
Section: Introductionmentioning
confidence: 99%