The evolution of the universe from noncompact Kaluza-Klein theory

Jose Edgar Madriz Aguilar (IFM; Michoacana University); Mauricio; Bellini (Mar del Plata University & CONICET)

arXiv:hep-th/0406268·hep-th·November 10, 2009

The evolution of the universe from noncompact Kaluza-Klein theory

Jose Edgar Madriz Aguilar (IFM, Michoacana University), Mauricio, Bellini (Mar del Plata University & CONICET)

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TL;DR

This paper proposes a five-dimensional framework inspired by Campbell's theorem to model the universe's evolution from an initial inflationary phase through deceleration to the current accelerated expansion, unifying different cosmic epochs.

Contribution

Introduces a 5D mechanism based on Campbell's theorem to explain the universe's evolution across multiple phases within a unified model.

Findings

01

Models transition from inflation to deceleration and acceleration.

02

Provides a scalar field-driven explanation for cosmic evolution.

03

Aligns with observed accelerated expansion of the universe.

Abstract

We develope a 5D mechanism inspired in the Campbell's theorem, to explain the (neutral scalar field governed) evolution of the universe from a initially inflationary expansion that has a change of phase towards a decelerated expansion and thereinafter evolves towards the present day observed celerated (quintessential) expansion.

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