Dynamics of the Bianchi~V cosmological model inspired by quintessential α-attractors

Abstract

We investigate scalar-field cosmologies in the Bianchi V spacetime using a dynamical-systems framework. Motivated by representative α-attractor potentials - the E-model and T-model - we apply averaging theorems and amplitude--phase reductions to monomial potentials φ2n of the scalar field, which approximate the attractor models near their minima, in the presence of matter with barotropic index γ. The reduced averaged system admits five generic isolated equilibria: Kasner vacua K0, the matter FLRW point F, the scalar FLRW point S, and the curvature Milne-type point K, together with special families for tuned (n,γ). We find that K0 are always sources, F is generically a saddle but can act as a sink for γ<\2nn+1,23\, S is a sink if 0<n<12 and 2nn+1<γ≤ 2, while K becomes a sink whenever γ>23 and n>12. These results demonstrate that isotropic FLRW α-attractor models extend naturally to anisotropic Bianchi~V cosmologies: inflationary attractors remain robust, while the Milne-type curvature solution emerges as the late-time state.