Spacetime Foam, Holographic Principle, and Black Hole Quantum Computers

Y. Jack Ng; H. van Dam

arXiv:gr-qc/0403057·gr-qc·November 10, 2009

Spacetime Foam, Holographic Principle, and Black Hole Quantum Computers

Y. Jack Ng, H. van Dam

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TL;DR

This paper explores the connections between spacetime foam, the holographic principle, and black hole quantum computers, revealing how quantum fluctuations influence information density and computational capabilities of black holes.

Contribution

It demonstrates that the physics of spacetime foam underpins the holographic principle and governs the computational power of black hole quantum computers.

Findings

01

Spacetime foam is linked to quantum fluctuations of spacetime.

02

The holographic principle limits information density in space.

03

Black hole quantum computers' power is governed by the same physics.

Abstract

Spacetime foam, also known as quantum foam, has its origin in quantum fluctuations of spacetime. Arguably it is the source of the holographic principle, which severely limits how densely information can be packed in space. Its physics is also intimately linked to that of black holes and computation. In particular, the same underlying physics is shown to govern the computational power of black hole quantum computers.

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