Space Time Matter inflation

Mariano Anabitarte; Mauricio Bellini (Mar del Plata University &; CONICET)

arXiv:gr-qc/0509002·gr-qc·November 11, 2009

Space Time Matter inflation

Mariano Anabitarte, Mauricio Bellini (Mar del Plata University &, CONICET)

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TL;DR

This paper investigates a five-dimensional Space-Time-Matter inflation model driven by a scalar quantum field, focusing on power-law expansion with large p, which better explains galaxy formation.

Contribution

It introduces a 5D STM gravity model for power-law inflation with a scalar field, enhancing understanding of galaxy formation mechanisms.

Findings

01

Power-law inflation with large p is modeled successfully.

02

The model aligns with galaxy formation observations.

03

Scalar field dynamics drive the inflationary expansion.

Abstract

We study a model of power-law inflationary inflation using the Space-Time-Matter (STM) theory of gravity for a five dimensional (5D) canonical metric that describes an apparent vacuum. In this approach the expansion is governed by a single scalar (neutral) quantum field. In particular, we study the case where the power of expansion of the universe is $p ≫ 1$ . This kind of model is more successful than others in accounting for galaxy formation.

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