Related papers: Quantum Reference Frames for Lorentz Symmetry

Quantum Reference Frames for Lorentz Symmetry

URL: http://arxiv.org/abs/2212.14081v2
Date: Mon, 12 Aug 2024 10:59:15 GMT
Title: Quantum Reference Frames for Lorentz Symmetry
Authors: Luca Apadula, Esteban Castro-Ruiz, Časlav Brukner,
Abstract summary: We introduce a reformulation of relativistic quantum mechanics independent of any notion of preferred temporal slicing. We define transformations that switch between the perspectives of different relativistic QRFs. We analyse two effects, superposition of time dilations and superposition of length contractions, that arise only if the reference frames exhibit both relativistic and quantum-mechanical features.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Since their first introduction, Quantum Reference Frame (QRF) transformations have been extensively discussed, generalising the covariance of physical laws to the quantum domain. Despite important progress, a formulation of QRF transformations for Lorentz symmetry is still lacking. The present work aims to fill this gap. We first introduce a reformulation of relativistic quantum mechanics independent of any notion of preferred temporal slicing. Based on this, we define transformations that switch between the perspectives of different relativistic QRFs. We introduce a notion of ''quantum Lorentz transformations'' and ''superposition of Lorentz boosts'', acting on the external degrees of freedom of a quantum particle. We analyse two effects, superposition of time dilations and superposition of length contractions, that arise only if the reference frames exhibit both relativistic and quantum-mechanical features. Finally, we discuss how the effects could be observed by measuring the wave-packet extensions from relativistic QRFs.

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