Litcius/Paper detail

Strong Quantum Metrological Limit from Many-Body Physics

Yaoming Chu, Xiangbei Li, Jianming Cai

2023Physical Review Letters45 citationsDOI

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.

Topics & Concepts

Quantum metrologyHeisenberg limitQuantum limitPhysicsQuantum entanglementQuantum sensorQuantum technologyQuantumQuantum mechanicsQuantum stateQuantum informationQuantum discordStatistical physicsOpen quantum systemTheoretical physicsQuantum networkQuantum Information and CryptographyQuantum Mechanics and ApplicationsCold Atom Physics and Bose-Einstein Condensates