First Principles Phenomenology of $H_0$

Vishnu Jejjala; Michael Kavic; Djordje Minic; Tatsu Takeuchi

arXiv:2202.05266·gr-qc·February 11, 2022

First Principles Phenomenology of $H_0$

Vishnu Jejjala, Michael Kavic, Djordje Minic, Tatsu Takeuchi

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TL;DR

This paper explores the role of infinite statistics in quantum gravity, linking it to a dynamic dark energy model that predicts an evolving Hubble parameter with an equation of state less than -1, and compares it to observations.

Contribution

It introduces a novel connection between infinite statistics and dark energy, providing a new framework for understanding cosmic acceleration.

Findings

01

Derived an expression for the Hubble parameter evolution.

02

Predicted an effective equation of state parameter less than -1.

03

Compared theoretical predictions with observational data.

Abstract

In this letter we discuss infinite statistics and motivate its role in quantum gravity. Then, we connect infinite statistics to a dynamical form of dark energy, and we obtain an expression for the evolution of the Hubble parameter that we compare to observation. The equation of state parameter $w_{e f f} < - 1$ in this framework.

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Taxonomy

TopicsCosmology and Gravitation Theories · Black Holes and Theoretical Physics · Noncommutative and Quantum Gravity Theories