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Quantum Algorithms
Noncyclic geometric phase in three-level Ramsey interferometry for enhanced metrology
arXiv
Authors: Zhifan Zhou, Yaxin Li
Year
2026
Paper ID
69420
Status
Preprint
Abstract Read
~2 min
Abstract Words
146
Citations
N/A
Abstract
In a standard two-level Ramsey interferometer, the measured phase accumulates linearly during the interrogation time. Here, we introduce three-level Ramsey interferometry that employs a noncyclic geometric phase response to enhance phase sensing, with projected internal-path interference reshaping the mapping from accumulated signal phase to readout phase. Near a geodesic-closure transition, a small accumulated signal phase produces a sharply amplified readout-phase shift. We quantify the accompanying gain--visibility tradeoff and identify a finite operating window in which the amplified response yields a net signal-to-noise-ratio gain under technical-noise-limited conditions. By tuning an initial Ramsey phase offset, this high-slope window can be positioned at a desired operating point and sampled repeatedly with shorter cycles, providing a geometric shortcut to improved projected stability. More broadly, these results establish a multilevel Ramsey route to enhanced phase sensitivity in quantum platforms, where two signal-collecting internal paths interfere to produce a noncyclic geometric response.
Why This Paper Matters
- It adds a 2026 reference point for readers tracking recent quantum research.
- In a standard two-level Ramsey interferometer, the measured phase accumulates linearly during the interrogation time.
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