Litcius/Paper detail

Enhancement of quantum synchronization via continuous measurement and feedback control

Yuzuru Kato, Hiroya Nakao

2020New Journal of Physics23 citationsDOIOpen Access PDF

Abstract

Abstract We study synchronization of a quantum van der Pol oscillator with a harmonic drive and demonstrate that quantum synchronization can be enhanced by performing continuous homodyne measurement on an additional bath linearly coupled to the oscillator and applying feedback control to the oscillator. The phase coherence of the oscillator is increased by reducing quantum fluctuations via the continuous measurement, whereas the measurement backaction inevitably induces fluctuations around the phase-locking point. We propose a simple feedback policy for suppressing measurement-induced fluctuations by adjusting the frequency of the harmonic drive, which results in enhancement of quantum synchronization. We further demonstrate that the maximum enhancement of quantum synchronization is achieved by performing quantum measurement on the quadrature angle at which the phase diffusion of the oscillator is the largest and the maximal information on the oscillator phase is extracted.

Topics & Concepts

PhysicsCoherence (philosophical gambling strategy)Harmonic oscillatorQuantumSynchronization (alternating current)Quantum mechanicsHomodyne detectionQuantum fluctuationQuantum harmonic oscillatorPhase (matter)Control theory (sociology)Direct-conversion receiverPhase synchronizationQuantum error correctionCoherent statesHarmonicQuantum electrodynamicsSimple harmonic motionMeasurement deviceWeak measurementQuadrature (astronomy)Quantum systemStatistical physicsQuantum informationSqueezed coherent stateOptical phase spaceQuantum sensorQuantum stateMechanical and Optical Resonatorsstochastic dynamics and bifurcationQuantum chaos and dynamical systems