E\"otv\"os branes

TL;DR

This paper explores a cosmological model with temperature-dependent brane tension inspired by Eötvös law, leading to a dynamic cosmological constant and a universe that transitions from deceleration to acceleration.

Contribution

It introduces a novel framework where brane tension varies with temperature, affecting cosmological evolution and mimicking standard cosmology at late times.

Findings

Brane tension and gravitational coupling increase with scale factor.

The cosmological constant evolves from negative to positive values.

The model reproduces standard cosmological behavior with late-time acceleration.

Abstract

The high value of brane tension has a crucial role in recovering Einstein's general relativity at low energies. In the framework of a recently developed formalism with variable brane tension one can pose the question, whether it was always that high? In analogy with fluid membranes, in this paper we allow for temperature dependent brane tension, according to the corresponding law established by E\"otv\"os. For cosmological branes this assumption leads to several immediate consequences: (a) The brane Universe was created at a finite temperature $T_{c}$ and scale factor $a_{\min}$. (b) Both the brane tension and the 4-dimensional gravitational coupling 'constant' increase with the scale factor from zero to asymptotic values. (c) The 4-dimensional cosmological 'constant' evolves with $a$, starting with a huge negative value, passing through zero, finally reaching a small positive value. Such a scale-factor dependent cosmological constant is able to generate a surplus of attraction at small $a$ (as dark matter does) and a late-time repulsion at large $a$ (dark energy). In the particular toy model discussed here the evolution of the brane tension is compensated by energy interchange between the brane and the fifth dimension, such that the continuity equation holds for the cosmological fluid. The resulting cosmology closely mimics the standard model at late times, a decelerated phase being followed by an accelerated expansion. The energy absorption of the brane drives the 5D space-time towards maximal symmetry, becoming Anti de Sitter.