The role of the dark matter haloes on the cosmic star formation rate

•We investigate the hole of dark matter distribution in the cosmic star formation.•The fraction of baryons in structures is dependent of the dark matter distribution.•Some dark matter functions could not trace the baryons without a bias parameter.•The characteristic time-scale for star formation is dependent on the dark matter.

The cosmic star formation rate (CSFR) represents the fraction of gas that is converted into stars within a certain comoving volume and at a given time t. However the evolution of the dark matter haloes and its relationship with the CSFR is not yet clear. In this context, we have investigated the role of the dark halo mass function - DHMF - in the process of gas conversion into stars. We observed a strong dependence between the fraction of baryons in structures, fb, and the specific mass function used for describing the dark matter haloes. In some cases, we have obtained fb greater than one at redshift z=0z=0. This result indicates that the evolution of dark matter, described by the specific DHMF, could not trace the baryonic matter without a bias parameter. We also observed that the characteristic time-scale for star formation, τ, is strongly dependent on the considered DHMF, when the model is confronted against the observational data. Also, as part of this work it was released, under GNU general public license, a Python package called ‘pycosmicstar’ to study the CSFR and its relationship with the DHMF.