Physical Review X (Jun 2016)

Resummation for Nonequilibrium Perturbation Theory and Application to Open Quantum Lattices

  • Andy C. Y. Li,
  • F. Petruccione,
  • Jens Koch

DOI
https://doi.org/10.1103/PhysRevX.6.021037
Journal volume & issue
Vol. 6, no. 2
p. 021037

Abstract

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Lattice models of fermions, bosons, and spins have long served to elucidate the essential physics of quantum phase transitions in a variety of systems. Generalizing such models to incorporate driving and dissipation has opened new vistas to investigate nonequilibrium phenomena and dissipative phase transitions in interacting many-body systems. We present a framework for the treatment of such open quantum lattices based on a resummation scheme for the Lindblad perturbation series. Employing a convenient diagrammatic representation, we utilize this method to obtain relevant observables for the open Jaynes-Cummings lattice, a model of special interest for open-system quantum simulation. We demonstrate that the resummation framework allows us to reliably predict observables for both finite and infinite Jaynes-Cummings lattices with different lattice geometries. The resummation of the Lindblad perturbation series can thus serve as a valuable tool in validating open quantum simulators, such as circuit-QED lattices, currently being investigated experimentally.