Variation of mass in primordial nucleosynthesis as a test of Induced   Matter Brane Gravity

S. Jalalzadeh; A. M. Yazdani

arXiv:0805.3017·gr-qc·November 26, 2008

Variation of mass in primordial nucleosynthesis as a test of Induced Matter Brane Gravity

S. Jalalzadeh, A. M. Yazdani

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TL;DR

This paper investigates how variations in mass during primordial nucleosynthesis can serve as a test for Induced Matter Brane Gravity, showing that helium production deviations align with the theory's predictions.

Contribution

It redefines mass variation in induced matter theory using specific perturbations and demonstrates its consistency with primordial helium production data.

Findings

01

Mass variation affects primordial helium production.

02

Deviations in helium production agree with induced matter brane gravity.

03

Supports the viability of induced matter brane gravity as a cosmological model.

Abstract

The variation of mass in induced matter theory using Ceroch-Stewart-Walter perturbations of submanifolds [1] is redefined. It is shown that the deviation of primordial Helium production due to a variation on the difference between the rest mass of the nucleus is in agrement with induced matter brane gravity.

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