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Accurate and efficient Bloch-oscillation-enhanced atom interferometry

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arxiv 2306.09399 v1 pith:3EKJBE25 submitted 2023-06-15 quant-ph physics.atom-ph

Accurate and efficient Bloch-oscillation-enhanced atom interferometry

classification quant-ph physics.atom-ph
keywords atomaccuracyaccurateblochbloch-oscillation-enhancedinterferometrylargelimits
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Bloch oscillations of atoms in optical lattices are a powerful technique that can boost the sensitivity of atom interferometers to a wide range of signals by large momentum transfer. To leverage this method to its full potential, an accurate theoretical description of losses and phases is needed going beyond existing treatments. Here, we present a comprehensive theoretical framework for Bloch-oscillation-enhanced atom interferometry and verify its accuracy through comparison with an exact numerical solution of the Schr\"odinger equation. Our approach establishes design criteria to reach the fundamental efficiency and accuracy limits of large momentum transfer using Bloch oscillations. We compare these limits to the case of current state-of-the-art experiments and make projections for the next generation of quantum sensors.

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