Relative Standard of Measurement and Supernova Data

David Blaschke; Danilo Behnke; Victor Pervushin; Denis Proskurin

arXiv:astro-ph/0302001·astro-ph·May 23, 2007·3 cites

Relative Standard of Measurement and Supernova Data

David Blaschke, Danilo Behnke, Victor Pervushin, Denis Proskurin

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TL;DR

This paper demonstrates that supernova luminosity-distance data and primordial nucleosynthesis can be explained by a scalar field model in a nonexpanding universe when using the relative Paris meter units.

Contribution

It introduces a unified scalar field framework to describe cosmological data without requiring universe expansion.

Findings

01

Supernova data fits with scalar quintessence in a nonexpanding universe.

02

Primordial nucleosynthesis is consistent with the scalar field model.

03

The model uses the relative Paris meter units for analysis.

Abstract

We show that in the units of the relative Paris meter both the latest data on the Supernova luminosity-distance -- redshift relation and primordial nucleosynthesis are described by the dynamics of a homogeneous, massless scalar field (Scalar Quintessence) in a nonexpanding universe.

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Taxonomy

TopicsCosmology and Gravitation Theories · Dark Matter and Cosmic Phenomena · Relativity and Gravitational Theory