Related papers: Geometrizing the Partial Entanglement Entropy: from PEE Threads to Bit Threads

Geometrizing the Partial Entanglement Entropy: from PEE Threads to Bit Threads

URL: http://arxiv.org/abs/2311.02301v5
Date: Tue, 27 Feb 2024 08:44:40 GMT
Title: Geometrizing the Partial Entanglement Entropy: from PEE Threads to Bit Threads
Authors: Jiong Lin, Yizhou Lu, Qiang Wen
Abstract summary: We give a scheme to geometrize the partial entanglement entropy (PEE) for holographic CFT in the context of AdS/CFT. We show that, for any static interval or spherical region $A$, a unique bit thread configuration can be generated from the PEE thread configuration determined by the state.
Score: 9.16766748049497
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We give a scheme to geometrize the partial entanglement entropy (PEE) for holographic CFT in the context of AdS/CFT. More explicitly, given a point $\textbf{x}$ we geometrize the two-point PEEs between $\textbf{x}$ and any other points in terms of the bulk geodesics connecting these two points. We refer to these geodesics as the \textit{PEE threads}, which can be naturally regarded as the integral curves of a divergenceless vector field $V_{\textbf{x}}^{\mu}$, which we call \emph{PEE thread flow}. The norm of $V_{\textbf{x}}^{\mu}$ that characterizes the density of the PEE threads can be determined by some physical requirements of the PEE. We show that, for any static interval or spherical region $A$, a unique bit thread configuration can be generated from the PEE thread configuration determined by the state. Hence, the non-intrinsic bit threads are emergent from the intrinsic PEE threads. For static disconnected intervals, the vector fields describing a divergenceless flow is are longer suitable to reproduce the RT formula. We weight the PEE threads with the number of times it intersects with any homologous surface. Instead the RT formula is perfectly reformulated to be the minimization of the summation of the PEE threads with all possible assignment of weights.

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