Testing CCDM Cosmology with the Radiation Temperature-Redshift Relation
Abstract
The standard CDM model can be mimicked at the background and perturbative levels (linear and non-linear) by a class of gravitationally induced particle production cosmology dubbed CCDM cosmology. However, the radiation component in the CCDM model follows a slightly different temperature-redshift -law which depends on an extra parameter, , describing the subdominant photon production rate. Here we perform a statistical analysis based on a compilation of 36 recent measurements of at low and intermediate redshifts. The likelihood of the production rate in CCDM cosmologies is constrained by ( confidence level), thereby showing that CDM () is still compatible with the adopted data sample. Although being hardly differentiated in the dynamic sector (cosmic history and matter fluctuations), the so-called thermal sector (temperature law, abundances of thermal relics and CMB power spectrum) offers a clear possibility for crucial tests confronting CDM and CCDM cosmologies.
Cite
@article{arxiv.1605.04857,
title = {Testing CCDM Cosmology with the Radiation Temperature-Redshift Relation},
author = {I. Baranov and J. F. Jesus and J. A. S. Lima},
journal= {arXiv preprint arXiv:1605.04857},
year = {2019}
}
Comments
20 pages, 3 figures. Statistical analysis corrected and updated. Main conclusions were not changed