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Autori principali: Gerbershagen, Marius, Hernandez, Juan, Khramtsov, Mikhail, Knysh, Maria
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2412.08707
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author Gerbershagen, Marius
Hernandez, Juan
Khramtsov, Mikhail
Knysh, Maria
author_facet Gerbershagen, Marius
Hernandez, Juan
Khramtsov, Mikhail
Knysh, Maria
contents Within the AdS/CFT correspondence, computational complexity for reduced density matrices of holographic conformal field theories has been conjectured to be related to certain geometric observables in the dual gravity theory. We study this conjecture from both the gravity and field theory point of view. Specifically, we consider a measure of complexity associated to the Bures metric on the space of density matrices. We compute this complexity measure for mixed states associated to single intervals in descendant states of the vacuum in 2d CFTs. Moreover, we derive from first principles a geometric observable dual to the Bures metric which is localized in the entanglement wedge of the AdS spacetime associated to the quantum circuit on the boundary. Finally, we compare the Bures metric complexity measure with holographic subregion complexity within the ``complexity=volume'' paradigm for perturbatively small transformations of the vacuum. While there is no exact agreement between these two quantities, we find striking similarities as we vary the target state and interval size, suggesting that these quantities are closely related.
format Preprint
id arxiv_https___arxiv_org_abs_2412_08707
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Holographic dual of Bures metric and subregion complexity
Gerbershagen, Marius
Hernandez, Juan
Khramtsov, Mikhail
Knysh, Maria
High Energy Physics - Theory
Quantum Physics
Within the AdS/CFT correspondence, computational complexity for reduced density matrices of holographic conformal field theories has been conjectured to be related to certain geometric observables in the dual gravity theory. We study this conjecture from both the gravity and field theory point of view. Specifically, we consider a measure of complexity associated to the Bures metric on the space of density matrices. We compute this complexity measure for mixed states associated to single intervals in descendant states of the vacuum in 2d CFTs. Moreover, we derive from first principles a geometric observable dual to the Bures metric which is localized in the entanglement wedge of the AdS spacetime associated to the quantum circuit on the boundary. Finally, we compare the Bures metric complexity measure with holographic subregion complexity within the ``complexity=volume'' paradigm for perturbatively small transformations of the vacuum. While there is no exact agreement between these two quantities, we find striking similarities as we vary the target state and interval size, suggesting that these quantities are closely related.
title Holographic dual of Bures metric and subregion complexity
topic High Energy Physics - Theory
Quantum Physics
url https://arxiv.org/abs/2412.08707