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Quantum Algorithms
A table-top high-sensitivity gyroscope based on slow light and cavity enhanced photon drag
arXiv
Authors: Min She, Jiangshan Tang, Keyu Xia
Year
2024
Paper ID
66958
Status
Preprint
Abstract Read
~2 min
Abstract Words
158
Citations
N/A
Abstract
A high-sensitivity gyroscope is vital for both investigation of the fundamental physics and monitor of the subtle variation of Earth's behaviors. However, it is challenge to realize a portable gyroscope with sensitivity approaching a small fraction of the Earth's rotation rate. Here, we theoretically propose a method for implementing a table-top gyroscope with remarkably high sensitivity based on photon drag in a rotating dielectric object. By inserting an Er3+-doped glass rod in a Fabry-Pérot optical cavity with only 20 cm length, we theoretically show that the giant group refractive index and the narrowing cavity linewidth due to slow light can essentially increase the nonreciprocal phase shift due to the photon drag to achieve a rotation sensitivity of 26 frad/s/sqrt{Hz}. This work paves the way to accurately detect tiny variations of the Earth's rotation rate and orientation, and even can test the geodetic and frame-dragging effects predicted by the general relativity with a small-volume equipment.
Why This Paper Matters
- It adds a 2024 reference point for readers tracking recent quantum research.
- A high-sensitivity gyroscope is vital for both investigation of the fundamental physics and monitor of the subtle variation of Earth's behaviors.
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