We explore theoretically the nonequilibrium photonic phases of an array of coupled cavities in presence of incoherent driving and dissipation. In particular, we consider a Hubbard model system where each site is a Kerr nonlinear resonator coupled to a two-level emitter, which is pumped incoherently. Within a Gutzwiller mean-field approach, we determine the steady-state phase diagram of such a system. We find that, at a critical value of the intercavity photon hopping rate, a second-order nonequilibrium phase transition associated with the spontaneous breaking of the U(1) symmetry occurs. The transition from an incompressible Mott-like photon fluid to a coherent delocalized phase is driven by commensurability effects and not by the competition between photon hopping and optical nonlinearity. The essence of the mean-field predictions is corroborated by finite-size simulations obtained with matrix product operators and corner-space renormalization methods.

Phase diagram of incoherently driven strongly correlated photonic lattices / Biella, Alberto; Storme, Florent; Lebreuilly, Jose; Rossini, Davide; Fazio, Rosario; Carusotto, Iacopo; Ciuti, Cristiano. - In: PHYSICAL REVIEW A. - ISSN 2469-9926. - 96:2(2017). [10.1103/PhysRevA.96.023839]

Phase diagram of incoherently driven strongly correlated photonic lattices

Fazio, Rosario;
2017

Abstract

We explore theoretically the nonequilibrium photonic phases of an array of coupled cavities in presence of incoherent driving and dissipation. In particular, we consider a Hubbard model system where each site is a Kerr nonlinear resonator coupled to a two-level emitter, which is pumped incoherently. Within a Gutzwiller mean-field approach, we determine the steady-state phase diagram of such a system. We find that, at a critical value of the intercavity photon hopping rate, a second-order nonequilibrium phase transition associated with the spontaneous breaking of the U(1) symmetry occurs. The transition from an incompressible Mott-like photon fluid to a coherent delocalized phase is driven by commensurability effects and not by the competition between photon hopping and optical nonlinearity. The essence of the mean-field predictions is corroborated by finite-size simulations obtained with matrix product operators and corner-space renormalization methods.
2017
Phase diagram of incoherently driven strongly correlated photonic lattices / Biella, Alberto; Storme, Florent; Lebreuilly, Jose; Rossini, Davide; Fazio, Rosario; Carusotto, Iacopo; Ciuti, Cristiano. - In: PHYSICAL REVIEW A. - ISSN 2469-9926. - 96:2(2017). [10.1103/PhysRevA.96.023839]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/776885
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