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Cosmological models based on an asymmetric scalar Higgs doublet with potential interactions between components
Ignat’ev Yu.G., Samigullina A.R.
Cosmological models based on an asymmetric scalar Higgs doublet (canonical \(\Phi\) and phantom \(\phi\) fields) with potential interaction between the components are proposed. A qualitative analysis of the corresponding dynamic systems is performed and their transformation properties with respect to similarity transformations of fundamental constants are revealed. The asymptotic behavior of this class of cosmological models near cosmological singularities is investigated. The numerical simulations revealed a number of interesting features of these models, in particular, the possibility of a fairly long ``waiting phase'', during which the Universe is almost Euclidean, as well as the presence of rebound points, in the vicinity of which strong oscillations of scalar potentials occur.
Keywords: Asymmetric scalar Higgs doublet, cosmological models, qualitative analysis, asymptotic behavior, waiting phase, bounces.
UDC: 5530.12+531.51+517.944+519.713+514.774+519.711.3+551.5.001.57+517.957
PACS: 04.20.Cv, 98.80.Cq, 96.50.S, 52.27.Ny, 02.60.Cb, 07.05.Tp, 04.25.-g
DOI: 10.17238/issn2226-8812.2025.1.94-100
Please cite this article in English as:
Ignat’ev Yu. G., Samigullina A. R. Cosmological models based on an asymmetric scalar Higgs doublet with potential interactions between components. Space, Time and Fundamental Interactions, 2025, no. 1, pp. 94–100.