Related papers: Universality in the tripartite information after global quenches

Universality in the tripartite information after global quenches

URL: http://arxiv.org/abs/2209.14253v3
Date: Thu, 9 Nov 2023 16:33:34 GMT
Title: Universality in the tripartite information after global quenches
Authors: Vanja Mari\'c, Maurizio Fagotti
Abstract summary: We study the R'enyi-$alpha$ tripartite information $I_3(alpha)(A,B,C)$ in clean 1D systems with local Hamiltonians. We identify different classes of states that, under time evolution with translationally in Hamiltonians, locally relax to states with a nonzero (R'enyi) tripartite information.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We consider macroscopically large 3-partitions $(A,B,C)$ of connected subsystems $A\cup B \cup C$ in infinite quantum spin chains and study the R\'enyi-$\alpha$ tripartite information $I_3^{(\alpha)}(A,B,C)$. At equilibrium in clean 1D systems with local Hamiltonians it generally vanishes. A notable exception is the ground state of conformal critical systems, in which $I_3^{(\alpha)}(A,B,C)$ is known to be a universal function of the cross ratio $x=|A||C|/[(|A|+|B|)(|C|+|B|)]$, where $|A|$ denotes $A$'s length. We identify different classes of states that, under time evolution with translationally invariant Hamiltonians, locally relax to states with a nonzero (R\'enyi) tripartite information, which furthermore exhibits a universal dependency on $x$. We report a numerical study of $I_3^{(\alpha)}$ in systems that are dual to free fermions, propose a field-theory description, and work out their asymptotic behaviour for $\alpha=2$ in general and for generic $\alpha$ in a subclass of systems. This allows us to infer the value of $I_3^{(\alpha)}$ in the scaling limit $x\rightarrow 1^-$, which we call ``residual tripartite information''. If nonzero, our analysis points to a universal residual value $-\log 2$ independently of the R\'enyi index $\alpha$, and hence applies also to the genuine (von Neumann) tripartite information.

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