Constructing the Padmanabhan Holographic Model in a BIonic System

TL;DR

This paper models the universe's expansion using a BIonic system, linking brane dynamics and degrees of freedom differences to cosmological parameters like the Hubble constant.

Contribution

It introduces a novel holographic model of the universe based on BIon systems, connecting brane formation and energy release to cosmic evolution.

Findings

Derived the standard form of the Hubble parameter in a BIonic framework

Linked degrees of freedom differences to universe expansion and thermodynamics

Explained cosmic parameter variations through brane interactions

Abstract

Recently, Padmanabhan has argued that a difference between the number of degrees of freedom on the surface and the number in a bulk causes the expansion of the universe. We can reconsider this idea in a BIon system. A Bion is formed from two branes that are connected by a wormhole. Our universe may live on one of these branes. Each brane could be formed by joining lower-dimensional branes, such as $D_1$ ones. By joining $D_1$ branes, a $D_n$ brane is formed, and some amounts of energy are released. Then, perhaps some dimensions are compacted, and a certain amount of energy is released. These energies cause a significant difference between the number of degrees of freedom on the surface and in the bulk of branes. This causes the evolution of the universe and many changes in thermodynamic parameters, such as entropy, as well as cosmic parameters, including the Hubble constant. We obtain the standard form of the Hubble parameter and its dependency on redshift in a Bion system.