Large Extra Dimensions and Holography

TL;DR

This paper explores how large extra dimensions could modify the holographic principle, proposing a relationship between UV and IR cutoffs, and suggests that detecting such dimensions could validate holography and impact cosmology.

Contribution

It introduces a new relationship between UV and IR cutoffs in theories with large extra dimensions, particularly for n=2, linking holography to experimental prospects.

Findings

For n=2, effective field theory can describe holographic systems.

Detection of large extra dimensions could validate the holographic principle.

Implications discussed for the cosmological constant problem.

Abstract

The holographic principle asserts that the entropy of a system cannot exceed its boundary area in Planck units. However, conventional quantum field theory fails to describe such systems. In this Letter, we assume the existence of large $n$ extra dimensions and propose a relationship between UV and IR cutoffs in this case. We find that if $n=2$, this effective field theory could be a good description of holographic systems. If these extra dimensions are detected in future experiments, it will help to prove the validity of the holographic principle. We also discuss implications for the cosmological constant problem.