A Matrix Model of Four-Dimensional Noncommutative Gravity

A Matrix Model of Four-Dimensional Noncommutative Gravity

In this review, we revisit our latest works regarding the description of the gravitational interaction on noncommutative spaces as matrix models. Specifically, inspired by the gauge-theoretic approach of (ordinary) gravity, we make use of the suggested methodology, modified appropriately for the non...

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Bibliographic Details
Main Authors: George Manolakos, Pantelis Manousselis, Danai Roumelioti, Stelios Stefas, George Zoupanos
Format: Article
Language:English
Published: MDPI AG 2022-03-01
Series:Universe
Subjects:
gauge theories
gauge theories of gravity
four-dimensional gravity
noncommutative spaces
fuzzy de Sitter
noncommutative gravity
Online Access:https://www.mdpi.com/2218-1997/8/4/215
Description
Summary:In this review, we revisit our latest works regarding the description of the gravitational interaction on noncommutative spaces as matrix models. Specifically, inspired by the gauge-theoretic approach of (ordinary) gravity, we make use of the suggested methodology, modified appropriately for the noncommutative framework, of the well-established formulation of gauge theories on them. Making use of a covariant four-dimensional fuzzy space, we formulate the gauge theory with an extended gauge group due to noncommutativity. In turn, in order to decrease the amount of symmetry we employ a symmetry breaking and result with an action which describes a theory that is a minimal noncommutative extension of the original.
ISSN:2218-1997

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