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Autori principali: Harlow, Daniel, Usatyuk, Mykhaylo, Zhao, Ying
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2501.02359
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author Harlow, Daniel
Usatyuk, Mykhaylo
Zhao, Ying
author_facet Harlow, Daniel
Usatyuk, Mykhaylo
Zhao, Ying
contents Recent arguments based on the quantum extremal surface formula or the gravitational path integral have given fairly compelling evidence that the Hilbert space of quantum gravity in a closed universe is one-dimensional and real. How can this be consistent with the complexity of our own experiences? In this paper we propose that the experiences of any observer $Ob$ in a closed universe can be approximately described by a quantum mechanical theory with a Hilbert space whose dimension is roughly $e^{S_{Ob}}$, where $S_{Ob}$ is the number of degrees of freedom of $Ob$. Moreover we argue that the errors in this description are exponentially small in $S_{Ob}$. We give evidence for this proposal using the gravitational path integral and the coding interpretation of holography, and we explain how similar effects arise in black hole physics in appropriate circumstances.
format Preprint
id arxiv_https___arxiv_org_abs_2501_02359
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Quantum mechanics and observers for gravity in a closed universe
Harlow, Daniel
Usatyuk, Mykhaylo
Zhao, Ying
High Energy Physics - Theory
General Relativity and Quantum Cosmology
Recent arguments based on the quantum extremal surface formula or the gravitational path integral have given fairly compelling evidence that the Hilbert space of quantum gravity in a closed universe is one-dimensional and real. How can this be consistent with the complexity of our own experiences? In this paper we propose that the experiences of any observer $Ob$ in a closed universe can be approximately described by a quantum mechanical theory with a Hilbert space whose dimension is roughly $e^{S_{Ob}}$, where $S_{Ob}$ is the number of degrees of freedom of $Ob$. Moreover we argue that the errors in this description are exponentially small in $S_{Ob}$. We give evidence for this proposal using the gravitational path integral and the coding interpretation of holography, and we explain how similar effects arise in black hole physics in appropriate circumstances.
title Quantum mechanics and observers for gravity in a closed universe
topic High Energy Physics - Theory
General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2501.02359