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Autores principales: Duruisseau, Paul, Touil, Akram, Deffner, Sebastian
Formato: Preprint
Publicado: 2023
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Acceso en línea:https://arxiv.org/abs/2309.03299
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author Duruisseau, Paul
Touil, Akram
Deffner, Sebastian
author_facet Duruisseau, Paul
Touil, Akram
Deffner, Sebastian
contents Quantum Darwinism explains the emergence of classical objectivity within a quantum universe. However, to date most research in quantum Darwinism has focused on specific models and their stationary properties. To further our understanding of the quantum-to-classical transition it appears desirable to identify the general criteria a Hamiltonian has to fulfill to support classical reality. To this end, we categorize all models with 2-body interactions, and we show that only those with separable interaction of system and environment can support a pointer basis. We further show that "perfect" quantum Darwinism can only emerge if there are no intra-environmental interactions. Our analysis is complemented by the solution of the ensuing dynamics. We find that in systems that exhibit information scrambling, the dynamical emergence of classical objectivity is in direct competition with the non-local spread of quantum correlations. Our rigorous findings are illustrated with the numerical analysis of four representative models.
format Preprint
id arxiv_https___arxiv_org_abs_2309_03299
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Pointer states and quantum Darwinism with 2-body interactions
Duruisseau, Paul
Touil, Akram
Deffner, Sebastian
Quantum Physics
Quantum Darwinism explains the emergence of classical objectivity within a quantum universe. However, to date most research in quantum Darwinism has focused on specific models and their stationary properties. To further our understanding of the quantum-to-classical transition it appears desirable to identify the general criteria a Hamiltonian has to fulfill to support classical reality. To this end, we categorize all models with 2-body interactions, and we show that only those with separable interaction of system and environment can support a pointer basis. We further show that "perfect" quantum Darwinism can only emerge if there are no intra-environmental interactions. Our analysis is complemented by the solution of the ensuing dynamics. We find that in systems that exhibit information scrambling, the dynamical emergence of classical objectivity is in direct competition with the non-local spread of quantum correlations. Our rigorous findings are illustrated with the numerical analysis of four representative models.
title Pointer states and quantum Darwinism with 2-body interactions
topic Quantum Physics
url https://arxiv.org/abs/2309.03299