Fully Quantum Scalable Description of Driven-Dissipative Lattice Models
Piotr Deuar, Alex Ferrier, Michał Matuszewski, Giuliano Orso, Marzena H. Szymańska
Abstract
The problem of modeling large driven dissipative quantum systems is tackled with a phase space method, opening the way to progress on a myriad of experimental platforms described by a Bose Hubbard model, including highly non-uniform systems with tens of thousands of sites.
Topics & Concepts
PhysicsQuantumDissipative systemStatistical physicsLattice (music)Computer scienceQuantum mechanicsPhase spaceTheoretical physicsScalabilityQuantum computerQuantum systemQuantum phasesParameter spaceQuantum phase transitionHubbard modelQuantum information processingSpace (punctuation)Phase (matter)Phase transitionQuantum simulatorQuantum annealingQuantum technologyQuantum entanglementPhysical systemTopology (electrical circuits)Open quantum systemQuantum dynamicsSpectroscopy and Quantum Chemical StudiesCold Atom Physics and Bose-Einstein CondensatesQuantum many-body systems