Quantum entanglement from the holographic principle

TL;DR

This paper proposes that quantum entanglement arises from the holographic principle, linking nonlocal correlations to boundary information and suggesting implications for cosmic entropy, the arrow of time, and dark energy.

Contribution

It introduces a novel perspective that quantum entanglement originates from holographic boundary information, challenging traditional quantum field theory assumptions.

Findings

Entanglement linked to boundary information in holography

Bulk degrees of freedom are overestimated by quantum field theory

Cosmic entanglement increases with horizon size, relating to dark energy

Abstract

It is suggested that quantum entanglement emerges from the holographic principle stating that all of the information of a region (bulk bits) can be described by the bits on its boundary surface. There are redundancy and information loss in the bulk bits that lead to the nonlocal correlation among the bulk bits. Quantum field theory overestimates the independent degrees of freedom in the bulk. The maximum entanglement in the universe increases as the size of the cosmic horizon and this could be related with the arrow of time and dark energy.