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Heisenberg-Limited Noisy Atomic Clock Using a Hybrid Coherent and Squeezed State Protocol

Luca Pezzè, Augusto Smerzi

2020Physical Review Letters60 citationsDOIOpen Access PDF

Abstract

We propose a hybrid quantum-classical atomic clock where the interrogation of atoms prepared in a spin-coherent (or weakly squeezed) state is used to feed back one or more highly spin-squeezed atomic states toward their optimal phase-sensitivity point. The hybrid clock overcomes the stability of a single Ramsey clock using coherent or optimal spin-squeezed states and reaches a Heisenberg-limited stability while avoiding nondestructive measurements. When optimized with respect to the total number of particles, the protocol surpasses the state-of-the-art proposals that use Greenberger-Horne-Zeilinger or NOON states. We compare analytical predictions with numerical simulations of clock operations, including correlated 1/f local oscillator noise.

Topics & Concepts

Squeezed coherent statePhysicsAtomic clockCoherent statesQuantum mechanicsLocal oscillatorQuantumPhase noiseOpticsAdvanced Frequency and Time StandardsAtomic and Subatomic Physics ResearchCold Atom Physics and Bose-Einstein Condensates
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