Low-redshift constraints on covariant canonical Gauge theory of gravity

David Benisty; David Vasak; Johannes Kirsch; Jürgen Struckmeier

doi:10.1140/epjc/s10052-021-08924-0

Low-redshift constraints on covariant canonical Gauge theory of gravity

David Benisty, David Vasak, Johannes Kirsch, Jürgen Struckmeier

Department of Physics

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

Constraints on the Covariant Canonical Gauge Gravity (CCGG) theory from low-redshift cosmology are studied. The formulation extends Einstein’s theory of General Relativity (GR) by a quadratic Riemann–Cartan term in the Lagrangian, controlled by a “deformation” parameter. In the Friedman universe this leads to an additional geometrical stress energy and promotes, due to the necessary presence of torsion, the cosmological constant to a time-dependent function. The MCMC analysis of the combined data sets of Type Ia Supernovae, Cosmic Chronometers and Baryon Acoustic Oscillations yields a fit that is well comparable with the Λ CDM results. The modifications implied in the CCGG approach turn out to be subdominant in the low-redshift cosmology. However, a non-zero spatial curvature and deformation parameter are shown to be consistent with observations.

Original language	English
Article number	125
Journal	European Physical Journal C
Volume	81
Issue number	2
DOIs	https://doi.org/10.1140/epjc/s10052-021-08924-0
State	Published - 1 Feb 2021

ASJC Scopus subject areas

Engineering (miscellaneous)
Physics and Astronomy (miscellaneous)

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AU - Vasak, David

AU - Kirsch, Johannes

AU - Struckmeier, Jürgen

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AB - Constraints on the Covariant Canonical Gauge Gravity (CCGG) theory from low-redshift cosmology are studied. The formulation extends Einstein’s theory of General Relativity (GR) by a quadratic Riemann–Cartan term in the Lagrangian, controlled by a “deformation” parameter. In the Friedman universe this leads to an additional geometrical stress energy and promotes, due to the necessary presence of torsion, the cosmological constant to a time-dependent function. The MCMC analysis of the combined data sets of Type Ia Supernovae, Cosmic Chronometers and Baryon Acoustic Oscillations yields a fit that is well comparable with the Λ CDM results. The modifications implied in the CCGG approach turn out to be subdominant in the low-redshift cosmology. However, a non-zero spatial curvature and deformation parameter are shown to be consistent with observations.

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Low-redshift constraints on covariant canonical Gauge theory of gravity

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