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Main Author: Duque, Erick I.
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.16163
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author Duque, Erick I.
author_facet Duque, Erick I.
contents The uniqueness theorems for general relativity and Yang-Mills theories can be circumvented by dropping the ubiquitous, yet often implicit, assumption that physical fields, such as the spacetime metric, are fundamental. The novel concept of emergent fields makes it possible to construct modified theories of gravity and forces where the spacetime metric and strength tensor fields emerge from a covariance analysis in the canonical formulation with nontrivial relations to the fundamental phase space and no additional degrees of freedom are required. This is an example of a post-Einstein-Yang-Mills theory that implies new physics. In particular, explicit realizations of the theory in symmetry-reduced systems have shown robust resolutions of the singularities that plague the classical theories in regions of extreme spacetime curvature, including nonsingular (SU(2)xU(1)-charged) black holes with a cosmologial constant and collapsing solutions, as well as Gowdy and FLRW cosmologies. Further applications include modifications in the spectrum of quasinormal modes and in the evaporation process of black holes, as well as relativistic formulations of long-range gravitational effects capable of modeling MOND as an alternative solution to the dark matter problem. New results here include an extension of the spherically symmetric system that couples SU(2) gauge fields and the generalization of previous dynamical, homogeneous solutions.
format Preprint
id arxiv_https___arxiv_org_abs_2507_16163
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Emergent field theory
Duque, Erick I.
General Relativity and Quantum Cosmology
The uniqueness theorems for general relativity and Yang-Mills theories can be circumvented by dropping the ubiquitous, yet often implicit, assumption that physical fields, such as the spacetime metric, are fundamental. The novel concept of emergent fields makes it possible to construct modified theories of gravity and forces where the spacetime metric and strength tensor fields emerge from a covariance analysis in the canonical formulation with nontrivial relations to the fundamental phase space and no additional degrees of freedom are required. This is an example of a post-Einstein-Yang-Mills theory that implies new physics. In particular, explicit realizations of the theory in symmetry-reduced systems have shown robust resolutions of the singularities that plague the classical theories in regions of extreme spacetime curvature, including nonsingular (SU(2)xU(1)-charged) black holes with a cosmologial constant and collapsing solutions, as well as Gowdy and FLRW cosmologies. Further applications include modifications in the spectrum of quasinormal modes and in the evaporation process of black holes, as well as relativistic formulations of long-range gravitational effects capable of modeling MOND as an alternative solution to the dark matter problem. New results here include an extension of the spherically symmetric system that couples SU(2) gauge fields and the generalization of previous dynamical, homogeneous solutions.
title Emergent field theory
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2507.16163