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- Title
The Formulation of Scaling Expansion in an Euler-Poisson Dark-Fluid Model.
- Authors
Szigeti, Balázs Endre; Barna, Imre Ferenc; Barnaföldi, Gergely Gábor
- Abstract
We present a dark fluid model described as a non-viscous, non-relativistic, rotating, and self-gravitating fluid. We assume that the system has spherical symmetry and that the matter can be described by the polytropic equation of state. The induced coupled nonlinear partial differential system of equations was solved using a self-similar time-dependent ansatz introduced by L. Sedov and G.I. Taylor. These kinds of solutions were successfully used to describe blast waves induced by an explosion following the Guderley–Landau–Stanyukovich problem. We show that the result of our quasi-analytic solutions are fully consistent with the Newtonian cosmological framework. We analyzed relevant quantities from the model, namely, the evolution of the Hubble parameter and the density parameter ratio, finding that our solutions can be applied to describe normal-to-dark energy on the cosmological scale.
- Subjects
BLAST waves; PARTIAL differential equations; HUBBLE constant; SAGNAC effect
- Publication
Universe (2218-1997), 2023, Vol 9, Issue 10, p431
- ISSN
2218-1997
- Publication type
Article
- DOI
10.3390/universe9100431