Exploring Bouncing Cosmologies with Cosmological Surveys

TL;DR

This paper explores bouncing cosmological models, specifically matter bounce and matter-bounce inflation scenarios, analyzing their predictions and compatibility with current observational data to address early universe physics beyond standard inflation.

Contribution

It introduces and compares two early universe models, detailing their mechanisms and observational signatures, advancing understanding of nonsingular bouncing cosmologies.

Findings

Matter bounce models can produce a red tilt in primordial perturbations.

Matter-bounce inflation models align with current CMB observations.

These paradigms offer alternatives to inflation with testable predictions.

Abstract

In light of the recent observational data coming from the sky we have two significant directions in the field of theoretical cosmology recently. First, we are now able to make use of present observations, such as the Planck and BICEP2 data, to examine theoretical predictions from the standard inflationary $\Lambda$CDM which were made decades of years ago. Second, we can search for new cosmological signatures as a way to explore physics beyond the standard cosmic paradigm. In particular, a subset of early universe models admit a nonsingular bouncing solution that attempts to address the issue of the big bang singularity. These models have achieved a series of considerable developments in recent years, in particular in their perturbative frameworks, which made brand-new predictions of cosmological signatures that could be visible in current and forthcoming observations. In this article we present two representative paradigms of very early universe physics. The first is the so-called new matter (or matter-ekpyrotic) bounce scenario in which the universe starts with a matter-dominated contraction phase and transitions into an ekpyrotic phase. In the setting of this paradigm, we propose some possible mechanisms of generating a red tilt for primordial curvature perturbations and confront its general predictions with recent cosmological observations. The second is the matter-bounce inflation scenario which can be viewed as an extension of inflationary cosmology with a matter contraction before inflation. We present a class of possible model constructions and review its implications on the current CMB experiments. Last, we review the significant achievements of these paradigms beyond the inflationary $\Lambda$CDM model, which we expect to shed new light on the direction of observational cosmology in the next decade years.