Exotic Attractors of the Nonequilibrium Rabi-Hubbard Model

M. Schiró; C. Joshi; M. Bordyuh; R. Fazio; J. Keeling; H. E. Türeci

doi:10.1103/PhysRevLett.116.143603

Exotic Attractors of the Nonequilibrium Rabi-Hubbard Model

M. Schiró, C. Joshi, M. Bordyuh, R. Fazio, J. Keeling, H. E. Türeci

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Abstract

We explore the phase diagram of the dissipative Rabi-Hubbard model, as could be realized by a Raman-pumping scheme applied to a coupled cavity array. There exist various exotic attractors, including ferroelectric, antiferroelectric, and incommensurate fixed points, as well as regions of persistent oscillations. Many of these features can be understood analytically by truncating to the two lowest lying states of the Rabi model on each site. We also show that these features survive beyond mean field, using matrix product operator simulations.

Original language	English (US)
Article number	143603
Journal	Physical review letters
Volume	116
Issue number	14
DOIs	https://doi.org/10.1103/PhysRevLett.116.143603
State	Published - Apr 8 2016

All Science Journal Classification (ASJC) codes

Physics and Astronomy(all)

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10.1103/PhysRevLett.116.143603

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title = "Exotic Attractors of the Nonequilibrium Rabi-Hubbard Model",

abstract = "We explore the phase diagram of the dissipative Rabi-Hubbard model, as could be realized by a Raman-pumping scheme applied to a coupled cavity array. There exist various exotic attractors, including ferroelectric, antiferroelectric, and incommensurate fixed points, as well as regions of persistent oscillations. Many of these features can be understood analytically by truncating to the two lowest lying states of the Rabi model on each site. We also show that these features survive beyond mean field, using matrix product operator simulations.",

author = "M. Schir{\'o} and C. Joshi and M. Bordyuh and R. Fazio and J. Keeling and T{\"u}reci, {H. E.}",

note = "Funding Information: H.E.T. acknowledges support through NSF Grant No.DMR-1151810 and The Eric and Wendy Schmidt Transformative Technology Fund. C.J. and J.M.J.K. acknowledge support from the EPSRC program TOPNES (EP/I031014/1). J.M.J.K. acknowledges support from the Leverhulme Trust (IAF-2014-025). R.F. acknowledges support from EU (IP-SIQS and QUIC). We are grateful to C. Aron for help in preparing Fig. 1. This work was supported in part by the National Science Foundation under Grant No.NSF PHY11-25915. Publisher Copyright: {\textcopyright} 2016 American Physical Society.",

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AU - Schiró, M.

AU - Joshi, C.

AU - Bordyuh, M.

AU - Fazio, R.

AU - Keeling, J.

AU - Türeci, H. E.

N1 - Funding Information: H.E.T. acknowledges support through NSF Grant No.DMR-1151810 and The Eric and Wendy Schmidt Transformative Technology Fund. C.J. and J.M.J.K. acknowledge support from the EPSRC program TOPNES (EP/I031014/1). J.M.J.K. acknowledges support from the Leverhulme Trust (IAF-2014-025). R.F. acknowledges support from EU (IP-SIQS and QUIC). We are grateful to C. Aron for help in preparing Fig. 1. This work was supported in part by the National Science Foundation under Grant No.NSF PHY11-25915. Publisher Copyright: © 2016 American Physical Society.

PY - 2016/4/8

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AB - We explore the phase diagram of the dissipative Rabi-Hubbard model, as could be realized by a Raman-pumping scheme applied to a coupled cavity array. There exist various exotic attractors, including ferroelectric, antiferroelectric, and incommensurate fixed points, as well as regions of persistent oscillations. Many of these features can be understood analytically by truncating to the two lowest lying states of the Rabi model on each site. We also show that these features survive beyond mean field, using matrix product operator simulations.

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Exotic Attractors of the Nonequilibrium Rabi-Hubbard Model

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