Models of universe with a polytropic equation of state: I. The early universe

TL;DR

This paper develops models of the early universe using a generalized polytropic equation of state, revealing scenarios with no initial singularity or with a primordial singularity, and describing transitions from pre-radiation to radiation eras.

Contribution

It introduces new cosmological models with a combined linear and polytropic equation of state, exploring their implications for early universe behavior and singularity structure.

Findings

Models without initial singularity with universe existing at all times.

A model with a primordial singularity starting at infinite density.

Transition from pre-radiation to radiation era analogous to a second order phase transition.

Abstract

We construct models of universe with a generalized equation of state $p=(\alpha \rho+k\rho^{1+1/n})c^2$ having a linear component and a polytropic component. In this paper, we consider positive indices $n>0$. In that case, the polytropic component dominates in the early universe where the density is high. For $\alpha=1/3$, $n=1$ and $k=-4/(3\rho_P)$, we obtain a model of early universe describing the transition from a pre-radiation era to the radiation era. The universe exists at any time in the past and there is no singularity. However, for $t<0$, its size is less than the Planck length $l_P=1.62 10^{-35} m$. In this model, the universe undergoes an inflationary expansion with the Planck density $\rho_P=5.16 10^{99} g/m^3$ that brings it to a size $a_1=2.61 10^{-6} m$ at $t_1=1.25 10^{-42} s$ (about 20 Planck times $t_P$). For $\alpha=1/3$, $n=1$ and $k=4/(3\rho_P)$, we obtain a model of early universe with a new form of primordial singularity: The universe starts at t=0 with an infinite density and a finite radius $a=a_1$. Actually, this universe becomes physical at a time $t_i=8.32 10^{-45} s$ from which the velocity of sound is less than the speed of light. When $a\gg a_1$, the universe evolves like in the standard model. We describe the transition from the pre-radiation era to the radiation era by analogy with a second order phase transition where the Planck constant $\hbar$ plays the role of finite size effects (the standard Big Bang theory is recovered for $\hbar=0$).