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Protocol for Precise Field Sensing in the Optical Domain with Cold Atoms in a Cavity

Robert J. Lewis-Swan, Diego Barberena, Juan A. Muniz, Julia Cline, Dylan J. Young, James K. Thompson, Ana María Rey

2020Physical Review Letters21 citationsDOIOpen Access PDF

Abstract

In the context of quantum metrology, optical cavity-QED platforms have primarily been focused on the generation of entangled atomic spin states useful for next-generation frequency and time standards. Here, we report a complementary application: the use of optical cavities to generate nonclassical states of light for electric field sensing below the standard quantum limit. We show that cooperative atom-light interactions in the strong collective coupling regime can be used to engineer generalized atom-light cat states which enable quantum enhanced sensing of small displacements of the cavity field even in the presence of photon loss. We demonstrate that metrological gains of 10-20 dB below the standard quantum limit are within reach for current cavity-QED systems operating with long-lived alkaline-earth atoms.

Topics & Concepts

Quantum metrologyCavity quantum electrodynamicsPhysicsQuantum sensorPhotonMetrologyQuantum opticsContext (archaeology)Heisenberg limitOptical cavityQuantumQuantum limitField (mathematics)Atom (system on chip)Light fieldUltracold atomQuantum technologyQuantum informationQuantum mechanicsQuantum networkOpen quantum systemOpticsLaserPure mathematicsComputer scienceMathematicsBiologyPaleontologyEmbedded systemQuantum Information and CryptographyMechanical and Optical ResonatorsCold Atom Physics and Bose-Einstein Condensates
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