Polytropes, logotropes, the universal value of the surface density of dark matter halos, and the value of the cosmological constant

TL;DR

This paper explores the connection between logotropes and polytropes, proposing a universal model for dark matter halos and the cosmological constant based on the logotropic equation of state, supported by kinetic theory and astrophysical observations.

Contribution

It introduces a unified framework linking logotropes and polytropes, explaining dark matter halo properties and the cosmological constant through a novel logotropic model.

Findings

Universal power-law tail in energy distribution decreasing as ε^{-5/2}

Density profile decreasing as r^{-1} consistent with dark matter halos

Accurate estimation of the cosmological constant from fundamental constants

Abstract

We discuss the connection between logotropes and polytropes in astrophysics and cosmology. The logotropic equation of state $P=A\ln(\rho/\rho_P)$ may be seen as a degenerate form of the polytropic equation of state $P=K\rho^{\gamma}$ in the limit $\gamma\rightarrow 0$, $K\rightarrow\infty$ with $A=K\gamma$ fixed. The logotropic distribution function corresponds to the polytropic distribution function of index $\gamma=0$ for which the density is finite but the pressure diverges logarithmically. We show that the polytropic and logotropic distribution functions can be obtained in the nondegenerate limit of the Lynden-Bell theory of violent relaxation for a particular distribution of phase levels given by the $\chi$-squared distribution. This provides a justification of the Tsallis entropy from the Lynden-Bell entropy. The logotropic distribution function presents a power-law energy tail decreasing as $\epsilon^{-5/2}$. Interestingly, this ``universal'' power-law tail is predicted by recent kinetic theories of collisionless relaxation based on the coarse-grained Vlasov equation and on the secular dressed diffusion equation. When coupled to gravity, the associated density profile decreases as $r^{-1}$. This may explain the universal surface density of dark matter halos, or account for an effective NFW density cusp. This also accounts for the universal gravitational acceleration felt by a test particle and for the Tully-Fisher relation. The logotropic model can thus provide an alternative to the modification of Newtonian dynamics (MOND) theory. We recall how the logotropic model leads to a very accurate expression of the cosmological constant $\Lambda={G^2m_e^6}/{\alpha^6\hbar^4}=1.36\times 10^{-52}\, {\rm m^{-2}}$ in terms of the mass of the electron and the fundamental constants of physics.