http://arxiv.org/abs/2110.06505
The tensions between the values of Hubble constant obtained from the early and the late Universe data pose a significant challenge to modern cosmology. Possible modifications of the flat homogeneous isotropic cosmological {\Lambda}CDM model are considered, in which the Universe contains dark energy, cold baryonic matter and dark matter. They are based on general relativity and satisfy two requirements: (1) the value of the Hubble constant, calculated from the value of the Hubble parameter at the recombination by the formulas of flat {\Lambda}CDM model, should be equal to 92% of the one based on low-reshift observations; (2) deviations from the {\Lambda}CDM model should not lead to effects that contradict astronomical observations and estimations obtained thereof. The analysis showed that there are few opportunities for choice. Either we should consider DM with negative pressure -\r{ho}{dm}c^2<<p{dm}<0, which weakly affects the evolution of the Universe and the observed manifestations of DM, or we should admit the mechanism of generation of new matter, for example, by a decay of DE.
S. Parnovsky
Thu, 14 Oct 21
41/62
Comments: 6 pages
You must be logged in to post a comment.