http://arxiv.org/abs/1803.10229
We investigate an extension of the $\Lambda$CDM model where the dark matter (DM) is coupled to photons. In addition, we consider the presence of massive neutrinos with the effective number of species $N_{\rm eff}$ as a free parameter. The effects of the DM-photon coupling on the cosmic microwave background (CMB) and matter power spectra are analyzed. We derive the observational constraints on the model parameters by using the data from CMB, baryonic acoustic oscillations (BAO) measurements, the recently measured new local value of Hubble constant from the Hubble Space Telescope (HST), and large scale structure (LSS) information from the abundance of galaxy clusters. The DM-photon coupling parameter $\Gamma_{\gamma }$ is constrained to $\Gamma_{\gamma } \leq 1.3 \times10^{-5}$ (at 95\% CL) from the joint analysis carried out by using all the mentioned data sets. The neutrino mass scale $\sum m_{\nu}$ upper bounds at 95\% CL are obtained as $\sum m_{\nu} \sim 0.4$ eV and $\sum m_{\nu} \sim 0.9$ eV with and without the LSS data, respectively. We observe that the DM-photon coupling causes significant changes in the best fit value of $N_{\rm eff}$ but yields statistical ranges of $N_{\rm eff}$ compatible with the standard predictions, and we do not find any evidence of dark radiation. Due to non-conservation of photons in our model, we also evaluate and analyze the effects on the BAO acoustic scale at the drag epoch. The DM-photon coupling model yields high values of Hubble constant consistent with the local measurement, and thus alleviates the tension on this parameter.
S. Kumar, R. Nunes and S. Yadav
Thu, 29 Mar 18
4/63
Comments: 14 pages, 5 figures