Litcius/Paper detail

Synchronization boost with single-photon dissipation in the deep quantum regime

W.-K. Mok, L.-C. Kwek, H. Heimonen

2020Physical Review Research31 citationsDOIOpen Access PDF

Abstract

Synchronization phenomena occur throughout nature. The van der Pol oscillator has been a paradigmatic model to investigate synchronization. Here we study the oscillator with additional single-photon dissipation in the deep quantum regime (defined to be 2 / 1 10), and we contrast it with the quantum regime at 2 / 1 1. Our results show that in this regime: (i) the effect of squeezed driving effect on frequency entrainment is strongly suppressed, (ii) single-photon dissipation boosts synchronization, (iii) synchronization is bounded, and (iv) the limit-cycle is robust and insensitive to strong driving. We use these physical properties to define the crossover to the deep quantum regime. We also propose a synchronization measure based on directional statistics which is analytically calculated. These results reflect the intrinsic physical differences between synchronization in the quantum and deep quantum regimes.

Topics & Concepts

PhysicsDissipationQuantumCrossoverSynchronization (alternating current)Measure (data warehouse)Statistical physicsQuantum mechanicsQuantum dissipationEntrainment (biomusicology)Quantum discordVan der Pol oscillatorAmplitude damping channelQuantum systemQuantum error correctionQuantum decoherenceSynchronization networksOpen quantum systemQuantum fluctuationQuantum informationClassical mechanicsMacroscopic quantum phenomenaQuantum processQuantum computerPhysical systemQuantum stateQuantum operationMechanical and Optical Resonatorsstochastic dynamics and bifurcationQuantum Information and Cryptography