Excitations of a strongly-correlated photon fluid stabilized via incoherent drive and dissipation
POSTER
Abstract
We explore theoretically the spectral properties of the non-equilibrium photonic phases hosted by a lattice of coupled cavities in presence of non-Markovian driving and dissipation, as well as strong photon interactions [1, 2]. In particular, we analyse how the low-energy spectrum of the stationary state evolves across the Mott/superfluid-like transition exhibited by the model and analyse the non-trivial interplay between the diffusive Goldstone mode emerging in the symmetry-broken phase and the physical role of the remaining dissipative modes. Our study goes in the direction of investigating the potential of driven-dissipative photonic fluids to quantum simulate a wide range of many-body problems.
[1] A. Biella, F. Storme, J. Lebreuilly, D. Rossini, R. Fazio, I. Carusotto and C. Ciuti - Phys. Rev. A 96 023839 (2017)
[2] R. Ma, B. Saxberg, C. Owens, N. Leung, Y. Lu, J. Simon, D. I. Schuster - Nature 566, 51-57 (2019)
[1] A. Biella, F. Storme, J. Lebreuilly, D. Rossini, R. Fazio, I. Carusotto and C. Ciuti - Phys. Rev. A 96 023839 (2017)
[2] R. Ma, B. Saxberg, C. Owens, N. Leung, Y. Lu, J. Simon, D. I. Schuster - Nature 566, 51-57 (2019)
Publication: Fabio Caleffi, Massimo Capone and Iacopo Carusotto (In preparation)
Presenters
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Fabio Caleffi
SISSA
Authors
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Fabio Caleffi
SISSA
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Massimo Capone
SISSA
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Iacopo Carusotto
Center and Dipartimento di Fisica, Universita di Trento, Dipartimento di Fisica, Università di Trento, Istituto Nazionale di Ottica INO-CNR, INO CNR BEC Center, Department of Physics, University of Trento