Hints of noncold dark matter? Observational constraints on barotropic dark matter with a constant equation of state parameter

Abstract

This study investigates the potential of a cosmological model termed wDM, in which a cosmological constant play the role of dark energy and dark matter is barotropic and has a constant equation of state parameter (w dm), to address the S8 tension between early- and late- universe observations. By incorporating the latest cosmological datasets -- including Planck Cosmic Microwave Background (CMB), Baryon Acoustic Oscillation (BAO), Ia supernovae (SNe Ia), Redshift Space Distortions (RSD), and weak lensing (WL) -- we constrain the wDM compared to . Our analysis reveals a marginal preference for a non-zero w dm=2.7+2.0-1.9×10-7( at 95\% confidence level) when combining CMB, SDSS BAO, SNe Ia, RSD, and WL data, and a marginal preference for a non-zero w dm = 2.29+1.9-2.0 × 10-7( at 95\% confidence level) when combining CMB, DESI Y1 BAO, SNe Ia, RSD, and WL data. In addition, we find that, compared to , wDM can alleviate the S8 tension from >3σ to <1σ. Furthermore, we find that, for CMB+SDSS+PP+RSD+WL datasets, the wDM model is close to being positively preferred over the model.