Litcius/Paper detail

Measurement-Induced Quantum Synchronization and Multiplexing

Finn Schmolke, Eric Lutz

2024Physical Review Letters15 citationsDOI

Abstract

Measurements are able to fundamentally affect quantum dynamics. We here show that a continuously measured quantum many-body system can undergo a spontaneous transition from asynchronous stochastic dynamics to noise-free stable synchronization at the level of single trajectories. We formulate general criteria for this quantum phenomenon to occur and demonstrate that the number of synchronized realizations can be controlled from none to all. We additionally find that ergodicity is typically broken, since time and ensemble averages may exhibit radically different synchronization behavior. We further introduce a quantum type of multiplexing that involves individual trajectories with distinct synchronization frequencies. Measurement-induced synchronization appears as a genuine nonclassical form of synchrony that exploits quantum superpositions.

Topics & Concepts

Synchronization (alternating current)QuantumErgodicityStatistical physicsAsynchronous communicationPhysicsNoise (video)MultiplexingComputer scienceQuantum mechanicsTelecommunicationsChannel (broadcasting)Artificial intelligenceImage (mathematics)Nonlinear Dynamics and Pattern FormationSpectroscopy and Quantum Chemical StudiesQuantum Mechanics and Applications