Multiple-Phase Quantum Interferometry: Real and Apparent Gains of Measuring All the Phases Simultaneously
Wojciech Górecki, Rafał Demkowicz-Dobrzański
Abstract
We characterize operationally meaningful quantum gains in a paradigmatic model of lossless multiple-phase interferometry and stress the insufficiency of the analysis based solely on the concept of quantum Fisher information. We show that the advantage of the optimal simultaneous estimation scheme amounts to a constant factor improvement when compared with schemes where each phase is estimated separately, which is contrary to widely cited results claiming a better precision scaling in terms of the number of phases involved.
Topics & Concepts
Lossless compressionScalingQuantumStatistical physicsPhysicsInterferometryPhase (matter)Constant (computer programming)Quantum metrologyWork (physics)Scheme (mathematics)Quantum mechanicsStress (linguistics)Computer scienceQuantum phase transitionQuantum phasesScale factor (cosmology)Quantum algorithmScale (ratio)Spurious relationshipQuantum sensorEstimation theoryTheoretical physicsQuantum Information and CryptographyQuantum Mechanics and ApplicationsSpectroscopy and Quantum Chemical Studies