Using quantum computing models for graviton communication/information processing in cosmological evolution

TL;DR

This paper explores the application of quantum computing models to understand graviton communication and information processing during cosmological evolution, linking Lloyd's universe-as-quantum-computer critique to early universe phenomena.

Contribution

It connects Lloyd's quantum universe model with cosmological constants and relic graviton flux, offering new insights into early universe entropy and the cosmological landscape.

Findings

Reconciliation of cosmological constant with relic graviton flux

Implications for cosmic microwave background barrier

Insights into universe nucleation entropy

Abstract

In 2001, Seth Lloyd presented a radical new critique of the universe as a quantum computing device, with an upper limit of bit calculations of the order of 10 to the 120 power. We find that his calculations permit us to reconcile the existance of a huge cosmological constant 10 to the minus 43 seconds after the big bang, with a resulting huge relic graviton flux, with the existance of a CMBR observational barrier of z = 1100 years after the big bang. Lloyd's calculations pre suppose the existence of a huge entropy value during the nucleation of a new universe, a datum we think helps shed light on the cosmological landscape problem.