Scalar Metric fluctuations in space time matter inflation

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

arXiv:gr-qc/0605090·gr-qc·November 17, 2014

Scalar Metric fluctuations in space time matter inflation

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

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TL;DR

This paper investigates the behavior of scalar metric fluctuations during space time matter inflation using a 5D background metric, providing insights into the effective 4D evolution of inflaton and metric perturbations.

Contribution

It introduces a novel analysis of scalar fluctuations in space time matter inflation within a 5D framework, connecting higher-dimensional geometry to 4D cosmological dynamics.

Findings

01

Effective 4D scalar fluctuations derived from 5D geometry

02

Insights into inflaton behavior during space time matter inflation

03

Potential implications for early universe cosmology

Abstract

Using the Ponce de Leon background metric, which describes a 5D universe in an apparent vacuum: $\overset{ˉ}{G}_{A B} = 0$ , we study the effective 4D evolution of both, the inflaton and gauge-invariant scalar metric fluctuations, in the recently introduced model of space time matter inflation.

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