On models of Cosmology

TL;DR

This paper reviews string cosmology models, focusing on their implications for the universe's origin and evolution, and discusses the particle-antiparticle asymmetry problem within these models.

Contribution

It provides a detailed review of string and heterotic M theory-based cosmology models and proposes a new perspective on particle-antiparticle asymmetry.

Findings

Models predict equal matter and antimatter, conflicting with observations.

Distribution of particles and antiparticles in brane and antibrane post-collision offers a potential solution.

Implications of these models for universe evolution are analyzed.

Abstract

In this work the most promising string cosmology models are re-viewed model by model in detail. These models are based on conceptsform string theory and heterotic M theory to construct possible scenar-ios for the beginning and the evolution of the universe. In all models asin standard cosmology the problem of particle-antiparticle asymmetryarises, the issue is that all models predict equal number of matter andantimatter to be present in the universe, this contradicts the observa-tions that the number of antiparticle is much less than the number ofparticles. In order to solve the asymmetry dilemma of particles andantiparticles, it is proposed that particles and antiparticles were dis-tributed in the brane and antibrane, respectively, immediately afterthe collision. Implications of these scenarios are discussed in detail.