Mixed-Order Symmetry-Breaking Quantum Phase Transition Far from Equilibrium

T. O. Puel; Stefano Chesi; Stefan Bernd Kirchner; P. Ribeiro

doi:10.1103/PhysRevLett.122.235701

Mixed-Order Symmetry-Breaking Quantum Phase Transition Far from Equilibrium

T. O. Puel, Stefano Chesi, Stefan Bernd Kirchner, P. Ribeiro

Department of Electrophysics

Research output: Contribution to journal › Article › peer-review

7 Scopus citations

Abstract

We study the current-carrying steady state of a transverse field Ising chain coupled to magnetic thermal reservoirs and obtain the nonequilibrium phase diagram as a function of the magnetization potential of the reservoirs. Upon increasing the magnetization bias we observe a discontinuous jump of the magnetic order parameter that coincides with a divergence of the correlation length. For steady states with a nonvanishing conductance, the entanglement entropy at zero temperature displays a bias dependent logarithmic correction that violates the area law and differs from the well-known equilibrium case. Our findings show that out-of-equilibrium conditions allow for novel critical phenomena not possible at equilibrium.

Original language	English
Article number	235701
Pages (from-to)	1-6
Number of pages	6
Journal	Physical Review Letters
Volume	122
Issue number	23
DOIs	https://doi.org/10.1103/PhysRevLett.122.235701
State	Published - 13 Jun 2019

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10.1103/PhysRevLett.122.235701

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title = "Mixed-Order Symmetry-Breaking Quantum Phase Transition Far from Equilibrium",

abstract = "We study the current-carrying steady state of a transverse field Ising chain coupled to magnetic thermal reservoirs and obtain the nonequilibrium phase diagram as a function of the magnetization potential of the reservoirs. Upon increasing the magnetization bias we observe a discontinuous jump of the magnetic order parameter that coincides with a divergence of the correlation length. For steady states with a nonvanishing conductance, the entanglement entropy at zero temperature displays a bias dependent logarithmic correction that violates the area law and differs from the well-known equilibrium case. Our findings show that out-of-equilibrium conditions allow for novel critical phenomena not possible at equilibrium.",

author = "Puel, {T. O.} and Stefano Chesi and Kirchner, {Stefan Bernd} and P. Ribeiro",

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AU - Puel, T. O.

AU - Chesi, Stefano

AU - Kirchner, Stefan Bernd

AU - Ribeiro, P.

PY - 2019/6/13

Y1 - 2019/6/13

N2 - We study the current-carrying steady state of a transverse field Ising chain coupled to magnetic thermal reservoirs and obtain the nonequilibrium phase diagram as a function of the magnetization potential of the reservoirs. Upon increasing the magnetization bias we observe a discontinuous jump of the magnetic order parameter that coincides with a divergence of the correlation length. For steady states with a nonvanishing conductance, the entanglement entropy at zero temperature displays a bias dependent logarithmic correction that violates the area law and differs from the well-known equilibrium case. Our findings show that out-of-equilibrium conditions allow for novel critical phenomena not possible at equilibrium.

AB - We study the current-carrying steady state of a transverse field Ising chain coupled to magnetic thermal reservoirs and obtain the nonequilibrium phase diagram as a function of the magnetization potential of the reservoirs. Upon increasing the magnetization bias we observe a discontinuous jump of the magnetic order parameter that coincides with a divergence of the correlation length. For steady states with a nonvanishing conductance, the entanglement entropy at zero temperature displays a bias dependent logarithmic correction that violates the area law and differs from the well-known equilibrium case. Our findings show that out-of-equilibrium conditions allow for novel critical phenomena not possible at equilibrium.

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U2 - 10.1103/PhysRevLett.122.235701

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JO - Physical Review Letters

JF - Physical Review Letters

IS - 23

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ER -

Mixed-Order Symmetry-Breaking Quantum Phase Transition Far from Equilibrium

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