Thermodynamical properties of a noncommutative anti–de Sitter–Einstein-Born-Infeld spacetime from gauge theory of gravity

Linares, Román; Maceda, Marco; Sánchez-Santos, Oscar

doi:10.1103/PhysRevD.101.044008

Thermodynamical properties of a noncommutative anti–de Sitter–Einstein-Born-Infeld spacetime from gauge theory of gravity

Journal

Physical Review D

ISSN

2470-0010

2470-0029

Date Issued

2020

Author(s)

Linares, Román

Maceda, Marco

Sánchez-Santos, Oscar

Facultad de Ingeniería - CampCM

Type

text::journal::journal article

DOI

10.1103/PhysRevD.101.044008

URL

https://scripta.up.edu.mx/handle/20.500.12552/4000

Abstract

In the past years, several approaches have been proposed to explore fundamental interactions in nature at energies beyond those attained at the laboratory. Gauge theories, for example, provide many helpful insights into the nature of particle interactions, and they have been generalized to various contexts. In particular, noncommutative gauge theories using the Seiberg-Witten map [1] have broad applications into the analysis of the scattering process of fundamental particles at high energies [2–6]. On the other hand, loop quantum gravity, string theory, and noncommutative geometry are a few of several approaches that exist aiming to elucidate the structure of spacetime taking into account quantum effects; the link between the string theory and noncommutative geometry has attracted much attention since first noticed [7–13]. The ultimate goal of all these formalisms is to provide a detailed picture of our universe at high energies. ©Physical Review D