Solving the dark energy problem via symmetry constraints

Resource type
Author/contributor
Title
Solving the dark energy problem via symmetry constraints
Abstract
We derive the vacuum energy from the zero-point quantum fluctuations after imposing a natural constraint emerging from the rotational symmetry inside the de-Sitter metric. The constraint imposes a maximum azimuthal angle for each frequency mode emerging from the vacuum. In this way, the shorter the wavelength of the mode, the larger will be its suppression. The same result is derived subsequently by using the Friedmann–Lemaitre–Robertson–Walker (FLRW) metric. We then make a physical interpretation of the physical effects from the perspective of pair creations over the vacuum, where the mentioned constraint emerges, limiting then the maximum angle which each pair generated from the vacuum can rotate with respect to each other during their short existence.
Publication
The European Physical Journal C
Volume
85
Issue
5
Date
2025-05-01
Language
en
ISSN
1434-6052
Accessed
5/6/25, 3:28 AM
Library Catalog
dspace.usj.edu.mo
Extra
Publisher: Springer Science and Business Media LLC
Citation
Arraut, I. (2025). Solving the dark energy problem via symmetry constraints. The European Physical Journal C, 85(5). https://doi.org/10.1140/epjc/s10052-025-14213-x