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W2548778911 abstract "The Sagnac interferometry has been widely used to measure rotation frequency. Beyond the conventional single-particle Sagnac interferometry, we propose an atomic Sagnac interferometry via multi-particle entangled states. In our scheme, an ensemble of entangled two-state Bose atoms are moved in a ring by a state-dependent rotating potential and then are recombined for interference via Ramsey pulses after a specific time determined by the state-dependent rotating potential. The ultimate rotation sensitivity can be improved to the Heisenberg limit if the initial internal degrees of freedom are entangled. By implementing parity measurement, the ultimate measurement precision can be saturated and the achieved measurement precisions approach to the Heisenberg limit. Our results provide a promising way to exploit many-body quantum entanglement in precision metrology of rotation sensing." @default.
W2548778911 created "2016-11-11" @default.
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W2548778911 date "2017-02-10" @default.
W2548778911 modified "2023-09-23" @default.
W2548778911 title "Heisenberg-limited Sagnac interferometer with multiparticle states" @default.
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W2548778911 doi "https://doi.org/10.1103/physreva.95.023608" @default.
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