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Main Author: Wu, Chen-Huan
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2306.16582
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author Wu, Chen-Huan
author_facet Wu, Chen-Huan
contents In a generic random system, the coexistence of extended and localized states can be evidenced by the subextensive width of energy distribution of a physical initial state in, for example, the quantum quenches which involving the local Hamiltonian. The robust thermalization is also evidenced in terms of the microscopic canonical ensemble average in the thermalization limit\cite{Shiraishi}, which satisfies the weak eigenstate thermalization hypothesis (ETH). In this article, we study the method of two-particle self-consistency for a system without condensation, i.e., without the inaccessible localizations that violating the ETH. We provide another pespective that considering the local conservation of an nonintegrable system the stubborn correlations between the three kinds of decompositions for the four-point functions, which can be regarded as the elements in a product of the self-energy and Green function matrices (i.e., the two-particle correlations in Kadanoff and Baym notation\cite{Vilk Y M}).
format Preprint
id arxiv_https___arxiv_org_abs_2306_16582
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Two-particle self-consistency in a system without condensation
Wu, Chen-Huan
Statistical Mechanics
Mathematical Physics
In a generic random system, the coexistence of extended and localized states can be evidenced by the subextensive width of energy distribution of a physical initial state in, for example, the quantum quenches which involving the local Hamiltonian. The robust thermalization is also evidenced in terms of the microscopic canonical ensemble average in the thermalization limit\cite{Shiraishi}, which satisfies the weak eigenstate thermalization hypothesis (ETH). In this article, we study the method of two-particle self-consistency for a system without condensation, i.e., without the inaccessible localizations that violating the ETH. We provide another pespective that considering the local conservation of an nonintegrable system the stubborn correlations between the three kinds of decompositions for the four-point functions, which can be regarded as the elements in a product of the self-energy and Green function matrices (i.e., the two-particle correlations in Kadanoff and Baym notation\cite{Vilk Y M}).
title Two-particle self-consistency in a system without condensation
topic Statistical Mechanics
Mathematical Physics
url https://arxiv.org/abs/2306.16582