Multidimensional quantum cosmic models: New solutions and gravitational   waves

Pedro F. Gonzalez-Diaz; Alberto Rozas-Fernandez (IFF; CSIC; Madrid,; Spain)

arXiv:1001.3799·gr-qc·January 22, 2010

Multidimensional quantum cosmic models: New solutions and gravitational waves

Pedro F. Gonzalez-Diaz, Alberto Rozas-Fernandez (IFF, CSIC, Madrid,, Spain)

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TL;DR

This paper explores quantum cosmic models with nonzero entanglement entropy, deriving new multidimensional solutions, analyzing their stability, and investigating the emergence of gravitational waves within these models.

Contribution

It introduces new solutions for quantum cosmic models in arbitrary dimensions, studies their stability, and examines gravitational wave emergence in these frameworks.

Findings

01

New multidimensional cosmic solutions derived.

02

Stability analysis of these solutions conducted.

03

Gravitational waves can emerge in these models.

Abstract

This paper contains a discussion on the quantum cosmic models, starting with the interpretation that all of the accelerating effects in the current universe are originated from the existence of a nonzero entropy of entanglement. In such a realm, we obtain new cosmic solutions for any arbitrary number of spatial dimensions, studying the stability of these solutions, so as the emergence of gravitational waves in the realm of the most general models.

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Taxonomy

TopicsCosmology and Gravitation Theories · Quantum Computing Algorithms and Architecture · Black Holes and Theoretical Physics