Highlights A wider class of homogeneous spacetimes can be described using General Relativity. The models are categorized into Bianchi I to IX, by employing Lie Algebras. We explore several inflationary Mixmaster models by using potential inflaton fields. Inflation affects the stability of the Bianchi IX model, which becomes more stable.
Abstract The objective of this research is to investigate the dynamical behavior of the Bianchi IX Universe through various inflationary models induced by scalar fields. Specifically, we explore potentials for the inflaton field of the form , where c varies from 1 to 4. To discern any chaotic behavior in the system, we calculate basin diagrams using the smaller alignment index (SALI) and the grid classification method. The fractal nature of the basins is evaluated through the utilization of two distinct indicators, namely the box-counting dimension and the boundary basin entropy. Our findings reveal that the inflaton affects the stability of the Bianchi IX model, which is intrinsically chaotic and becomes more stable as the power of the scalar-field potential increases. Moreover, except in the case , the impact of the scalar field on the dynamics is independent of the exponent .
Comparison between different inflationary models in Bianchi IX spacetime
Advances in Space Research ; 73 , 5 ; 2753-2762
2023-11-12
10 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Tema Archiv | 2007
|Engineering Index Backfile | 1905
Engineering Index Backfile | 1928
Engineering Index Backfile | 1905