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W4367321978 abstract "Surpassing the standard quantum limit and even reaching the Heisenberg limit using quantum entanglement, represents the Holy Grail of quantum metrology. However, quantum entanglement is a valuable resource that does not come without a price. The exceptional time overhead for the preparation of large-scale entangled states raises disconcerting concerns about whether the Heisenberg limit is fundamentally achievable. Here, we find a universal speed limit set by the Lieb-Robinson light cone for the quantum Fisher information growth to characterize the metrological potential of quantum resource states during their preparation. Our main result establishes a strong precision limit of quantum metrology accounting for the complexity of many-body quantum resource state preparation and reveals a fundamental constraint for reaching the Heisenberg limit in a generic many-body lattice system with bounded one-site energy. It enables us to identify the essential features of quantum many-body systems that are crucial for achieving the quantum advantage of quantum metrology, and brings an interesting connection between many-body quantum dynamics and quantum metrology." @default.
W4367321978 created "2023-04-29" @default.
W4367321978 creator A5002613792 @default.
W4367321978 creator A5040072694 @default.
W4367321978 creator A5041782247 @default.
W4367321978 date "2023-04-27" @default.
W4367321978 modified "2023-09-30" @default.
W4367321978 title "Strong Quantum Metrological Limit from Many-Body Physics" @default.
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W4367321978 doi "https://doi.org/10.1103/physrevlett.130.170801" @default.
W4367321978 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37172232" @default.
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