English

The CST Bounce Universe model -- a parametric study

General Relativity and Quantum Cosmology 2019-01-23 v4

Abstract

A bounce universe model with a scale-invariant and stable spectrum of primordial density perturbations was constructed using a consistent truncation of the D-brane dynamics from Type IIB string theory. A coupling was introduced between the tachyon field and the adjoint Higgs field on the D3-branes to lock the tachyon at the top of its potential hill and to model the bounce process, which is known as the Coupled Scalar and Tachyon Bounce (CSTB) Universe. The CSTB model has been shown to be ghost free, and it fulfils the null energy condition; in addition, it can also solve the Big Bang cosmic singularity problem. In this paper we conduct an extensive follow-up study of the parameter space of the CSTB model. In particular we are interested in the parameter values that can produce a single bounce to arrive at a radiation-dominated universe. We further establish that the CSTB universe is a viable alternative to inflation, as it can naturally produce a sufficient number of e-foldings in the locked inflation epoch and in the post-bounce expansion to overcome the four fundamental limitations of the Big Bang cosmology, which are flatness, horizon, homogeneity and singularity, resulting in a universe of the current size.

Keywords

Cite

@article{arxiv.1601.03807,
  title  = {The CST Bounce Universe model -- a parametric study},
  author = {Yeuk-Kwan E. Cheung and Xue Song and Shuyi Li and Yunxuan Li and Yiqing Zhu},
  journal= {arXiv preprint arXiv:1601.03807},
  year   = {2019}
}

Comments

13pages, 3 figures; reference added, in press in China Physics

R2 v1 2026-06-22T12:29:52.305Z