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Critical Quantum Metrology Assisted by Real-Time Feedback Control

Raffaele Salvia, Mohammad Mehboudi, Martí Perarnau-Llobet

2023Physical Review Letters42 citationsDOIOpen Access PDF

Abstract

We investigate critical quantum metrology, that is, the estimation of parameters in many-body systems close to a quantum critical point, through the lens of Bayesian inference theory. We first derive a no-go result stating that any nonadaptive strategy will fail to exploit quantum critical enhancement (i.e., precision beyond the shot-noise limit) for a sufficiently large number of particles N whenever our prior knowledge is limited. We then consider different adaptive strategies that can overcome this no-go result and illustrate their performance in the estimation of (i) a magnetic field using a probe of 1D spin Ising chain and (ii) the coupling strength in a Bose-Hubbard square lattice. Our results show that adaptive strategies with real-time feedback control can achieve sub-shot-noise scaling even with few measurements and substantial prior uncertainty.

Topics & Concepts

Quantum metrologyMetrologyQuantum controlQuantumQuantum sensorPhysicsFeedback controlControl (management)Computer scienceQuantum mechanicsQuantum computerQuantum networkControl engineeringArtificial intelligenceEngineeringQuantum many-body systemsQuantum Information and CryptographyQuantum Computing Algorithms and Architecture