Predictions from the logotropic model: the universal surface density of dark matter halos and the present proportion of dark matter and dark energy

Abstract

The logotropic model [P.H. Chavanis, Eur. Phys. J. Plus 130, 130 (2015)] may be an interesting alternative to the model. It is able to account for the present accelerating expansion of the universe while solving at the same time the core-cusp problem of the CDM model. In the logotropic model, there is a single dark fluid. Its rest-mass plays the role of dark matter and its internal energy plays the role of dark energy. We highlight two remarkable predictions of the logotropic model. It yields cored dark matter halos with a universal surface density equal to 0 th=0.01955 c/G=133\, M/ pc2 without free parameter in very good agreement with the observational value 0 obs=141-52+83\, M/ pc2. It also predicts the present ratio of dark energy and dark matter to be the pure number de,0 th/ dm,0 th=e=2.71828... in very good agreement with the observations giving de,0 obs/ dm,0 obs=2.669 0.08. Using the measured present proportion of baryonic matter b,0 obs=0.0486 0.0010, we find that the values of the present proportion of dark matter and dark energy are dm,0 th=11+e(1- b,0)=0.2559 and de,0 th=e1+e(1- b,0)=0.6955 in very good agreement with the observational values dm,0 obs=0.2589 0.0057 and de,0 obs=0.6911 0.0062 within the error bars. These theoretical predictions are obtained by advocating a mysterious strong cosmic coincidence (dubbed "dark magic") implying that our epoch plays a particular role in the history of the universe.