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Main Authors: Vilasini, V., Chen, Lin-Qing, Ye, Liuhang, Renner, Renato
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2505.21797
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author Vilasini, V.
Chen, Lin-Qing
Ye, Liuhang
Renner, Renato
author_facet Vilasini, V.
Chen, Lin-Qing
Ye, Liuhang
Renner, Renato
contents The notions of events and their localisation fundamentally differ between quantum theory and general relativity, reconciling them becomes even more important and challenging in the context of quantum gravity where a classical spacetime background can no longer be assumed. We therefore propose an operational approach drawing from quantum information, to define events and their localisation relative to a Lab, which in particular includes a choice of physical degree of freedom (the reference) providing a generalised notion of "location". We define a property of the reference, relative measurability, that is sensitive to correlations between the Lab's reference and objects of study. Applying this proposal to analyse the quantum switch (QS), a process widely associated with indefinite causal order, we uncover differences between classical and quantum spacetime realisations of QS, rooted in the relative measurability of the associated references and possibilities for agents' interventions. Our analysis also clarifies a longstanding debate on the interpretation of QS experiments, demonstrating how different conclusions stem from distinct assumptions on the Labs. This provides a foundation for a more unified view of events, localisation, and causality across quantum and relativistic domains.
format Preprint
id arxiv_https___arxiv_org_abs_2505_21797
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Events and their Localisation are Relative to a Lab
Vilasini, V.
Chen, Lin-Qing
Ye, Liuhang
Renner, Renato
Quantum Physics
General Relativity and Quantum Cosmology
The notions of events and their localisation fundamentally differ between quantum theory and general relativity, reconciling them becomes even more important and challenging in the context of quantum gravity where a classical spacetime background can no longer be assumed. We therefore propose an operational approach drawing from quantum information, to define events and their localisation relative to a Lab, which in particular includes a choice of physical degree of freedom (the reference) providing a generalised notion of "location". We define a property of the reference, relative measurability, that is sensitive to correlations between the Lab's reference and objects of study. Applying this proposal to analyse the quantum switch (QS), a process widely associated with indefinite causal order, we uncover differences between classical and quantum spacetime realisations of QS, rooted in the relative measurability of the associated references and possibilities for agents' interventions. Our analysis also clarifies a longstanding debate on the interpretation of QS experiments, demonstrating how different conclusions stem from distinct assumptions on the Labs. This provides a foundation for a more unified view of events, localisation, and causality across quantum and relativistic domains.
title Events and their Localisation are Relative to a Lab
topic Quantum Physics
General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2505.21797