Time and its arrow from quantum geometrodynamics?

Claus Kiefer; Leonardo Chataignier; Mritunjay Tyagi

doi:10.1088/1742-6596/2883/1/012008

Time and its arrow from quantum geometrodynamics?

Claus Kiefer, Leonardo Chataignier, Mritunjay Tyagi

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review

1 Citation (Scopus)

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Abstract

We discuss how quantum geometrodynamics, a conservative approach to quantum gravity, might explain the emergence of classical spacetime and, with it, the emergence of classical time and its arrow from the universal quantum state. This follows from a particular but reasonable choice of boundary condition motivated by the structure of the Hamiltonian of the theory. This condition can also be seen as defining a quantum version of Penrose’s Weyl curvature hypothesis. We comment on the relation of this picture to the ‘past hypothesis’ and the different observed arrows of time, and we consider how quantum geometrodynamics could serve as a unifying and more fundamental framework to explain these observations.

Original language	English
Title of host publication	19th International Symposium on Symmetries in Science Symposia 2023
Publisher	IoP Publishing
Number of pages	10
DOIs	https://doi.org/10.1088/1742-6596/2883/1/012008
Publication status	Published - 2024
Event	19th International Symposium on Symmetries in Science Symposia 2023 - Bregenz, Austria Duration: 30-Jul-2023 → 4-Aug-2023

Publication series

Name	Journal of Physics: Conference Series
Publisher	IoP Publishing
Number	1
Volume	2883
ISSN (Print)	1742-6588

Conference

Conference	19th International Symposium on Symmetries in Science Symposia 2023
Country/Territory	Austria
City	Bregenz
Period	30/07/2023 → 04/08/2023

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10.1088/1742-6596/2883/1/012008Licence: CC BY

Time and its arrow from quantum geometrodynamics?Final publisher's version, 0.99 MBLicence: CC BY

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@inproceedings{f33f66e0b5924f8393d6a491ffeede19,

title = "Time and its arrow from quantum geometrodynamics?",

abstract = "We discuss how quantum geometrodynamics, a conservative approach to quantum gravity, might explain the emergence of classical spacetime and, with it, the emergence of classical time and its arrow from the universal quantum state. This follows from a particular but reasonable choice of boundary condition motivated by the structure of the Hamiltonian of the theory. This condition can also be seen as defining a quantum version of Penrose{\textquoteright}s Weyl curvature hypothesis. We comment on the relation of this picture to the {\textquoteleft}past hypothesis{\textquoteright} and the different observed arrows of time, and we consider how quantum geometrodynamics could serve as a unifying and more fundamental framework to explain these observations.",

author = "Claus Kiefer and Leonardo Chataignier and Mritunjay Tyagi",

note = "Publisher Copyright: {\textcopyright} 2024 Institute of Physics Publishing. All rights reserved.; 19th International Symposium on Symmetries in Science Symposia 2023 ; Conference date: 30-07-2023 Through 04-08-2023",

year = "2024",

doi = "10.1088/1742-6596/2883/1/012008",

language = "English",

series = "Journal of Physics: Conference Series",

publisher = "IoP Publishing",

number = "1",

booktitle = "19th International Symposium on Symmetries in Science Symposia 2023",

}

Kiefer, C, Chataignier, L & Tyagi, M 2024, Time and its arrow from quantum geometrodynamics? in 19th International Symposium on Symmetries in Science Symposia 2023., 012008, Journal of Physics: Conference Series, no. 1, vol. 2883, IoP Publishing, 19th International Symposium on Symmetries in Science Symposia 2023, Bregenz, Austria, 30/07/2023. https://doi.org/10.1088/1742-6596/2883/1/012008

Time and its arrow from quantum geometrodynamics? / Kiefer, Claus; Chataignier, Leonardo; Tyagi, Mritunjay.
19th International Symposium on Symmetries in Science Symposia 2023. IoP Publishing, 2024. 012008 (Journal of Physics: Conference Series; Vol. 2883, No. 1).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › Academic › peer-review