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Main Authors: Novais, Artur, Ribeiro, André L. B.
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.02045
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author Novais, Artur
Ribeiro, André L. B.
author_facet Novais, Artur
Ribeiro, André L. B.
contents The phenomenon of augmented gravity on the scale of galaxies, conventionally attributed to dark matter halos, is shown to possibly result from the incremental growth of galactic masses and radii over time. This approach elucidates the cosmological origins of the acceleration scale $a_0\approx cH_0/2π\approx10^{-10}$ms$^{-2}$ at which galaxy rotation curves deviate from Keplerian behavior, with no need for new particles or modifications to the laws of gravity, i.e., it constitutes a new explanatory path beyond Cold Dark Matter (CDM) and Modified Newtonian Dynamics (MOND). Once one formally equates the energy density of the universe to the critical value ($ρ=ρ_c$) and the cosmic age to the reciprocal of the Hubble parameter ($t=H^{-1}$), independently of the epoch of observation, the result is the Zero-Energy condition for the cosmic fluid's equation of state, with key repercussions for the study of dark energy since the observables can be explained in the absence of a cosmological constant. Furthermore, this mass-energy evolution framework is able to reconcile the success of CDM models in describing structure assembly at $z\lesssim6$ with the unexpected discovery of massive objects at $z\gtrsim10$. Models that feature a strong coupling between cosmic time and energy are favored by this analysis.
format Preprint
id arxiv_https___arxiv_org_abs_2506_02045
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The Galactic Pizza: Flat Rotation Curves in the Context of Cosmological Time-Energy Coupling
Novais, Artur
Ribeiro, André L. B.
General Physics
The phenomenon of augmented gravity on the scale of galaxies, conventionally attributed to dark matter halos, is shown to possibly result from the incremental growth of galactic masses and radii over time. This approach elucidates the cosmological origins of the acceleration scale $a_0\approx cH_0/2π\approx10^{-10}$ms$^{-2}$ at which galaxy rotation curves deviate from Keplerian behavior, with no need for new particles or modifications to the laws of gravity, i.e., it constitutes a new explanatory path beyond Cold Dark Matter (CDM) and Modified Newtonian Dynamics (MOND). Once one formally equates the energy density of the universe to the critical value ($ρ=ρ_c$) and the cosmic age to the reciprocal of the Hubble parameter ($t=H^{-1}$), independently of the epoch of observation, the result is the Zero-Energy condition for the cosmic fluid's equation of state, with key repercussions for the study of dark energy since the observables can be explained in the absence of a cosmological constant. Furthermore, this mass-energy evolution framework is able to reconcile the success of CDM models in describing structure assembly at $z\lesssim6$ with the unexpected discovery of massive objects at $z\gtrsim10$. Models that feature a strong coupling between cosmic time and energy are favored by this analysis.
title The Galactic Pizza: Flat Rotation Curves in the Context of Cosmological Time-Energy Coupling
topic General Physics
url https://arxiv.org/abs/2506.02045