Universal Shot-Noise Limit for Quantum Metrology with Local Hamiltonians

Hai Long Shi, Xi Wen Guan, Jing Yang

    Research output: Contribution to journalArticlepeer-review

    3 Citations (Scopus)

    Abstract

    Quantum many-body interactions can induce quantum entanglement among particles, rendering them valuable resources for quantum-enhanced sensing. In this work, we establish a link between the bound on the growth of the quantum Fisher information and the Lieb-Robinson bound, which characterizes the operator growth in locally interacting quantum many-body systems. We show that for initial separable states, despite the use of local many-body interactions, the precision cannot surpass the shot noise limit at all times. This conclusion also holds for an initial state that is the nondegenerate ground state of a local and gapped Hamiltonian. These findings strongly hint that when one can only prepare separable initial states, nonlocal and long-range interactions are essential resources for surpassing the shot noise limit. This observation is confirmed through numerical analysis on the long-range Ising model. Our results bridge the field of many-body quantum sensing and operator growth in many-body quantum systems and open the possibility to investigate the interplay between quantum sensing and control, many-body physics and information scrambling.

    Original languageEnglish
    Article number100803
    JournalPhysical Review Letters
    Volume132
    Issue number10
    DOIs
    Publication statusPublished - 8 Mar 2024

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