Add to ORKGThe gravitational spin connection appears in gravity as a non-Abelian gauge field for the Lorentz group $SO(3,1)$, which is non-compact. The action for General Relativity is linear in the field strength associated to the spin connection, and its equation of motion corresponds to the standard metricity constraint. Consequently, the zero-torsion spin connection is never realized as an independent degree of freedom and is determined by the vierbein field. In this work, we take a different perspective and consider a pure Yang-Mills theory for the spin connection coupled to Dirac fermions, resulting in the former being a dynamical field. After discussing various approaches towards managing the pathologies associated with non-compact gauge theori...
We demonstrate that classical and quantum electrodynamics can be completed by gravitational torsion ...
In this work we consider the Einstein-Hilbert action in the first order order formalism coupled to D...
We continue to develop the pure connection formalism for gravity. We derive the Feynman rules for co...
We study sources for torsion in Poincare gauge theory of any dimension, signature, and spin. We find...
We have recently undergone an analysis of gravitational theories as defined in first order formalism...
In this paper we generalize our previous results on spin connection for the linear scalar cosmologic...
The spin connection enters the theory of gravity as a nonabelian gauge field associated with local L...
The spin connection enters the theory of gravity as a nonabelian gauge field associated with local L...
We describe a new perturbation theory for General Relativity, with the chiral first-order Einstein-C...
Considering a higher dimensional Lorentz group as the symmetry of the tangent space, we unify gravit...
Considering a higher dimensional Lorentz group as the symmetry of the tangent space, we unify gravit...
The spin connection enters the theory of gravity as a nonabelian gauge field associated with local L...
Considering a higher dimensional Lorentz group as the symmetry of the tangent space, we unify gravit...
Considering a higher dimensional Lorentz group as the symmetry of the tangent space, we unify gravit...
We continue to develop the pure connection formalism for gravity. We derive the Feynman rules for co...
We demonstrate that classical and quantum electrodynamics can be completed by gravitational torsion ...
In this work we consider the Einstein-Hilbert action in the first order order formalism coupled to D...
We continue to develop the pure connection formalism for gravity. We derive the Feynman rules for co...
We study sources for torsion in Poincare gauge theory of any dimension, signature, and spin. We find...
We have recently undergone an analysis of gravitational theories as defined in first order formalism...
In this paper we generalize our previous results on spin connection for the linear scalar cosmologic...
The spin connection enters the theory of gravity as a nonabelian gauge field associated with local L...
The spin connection enters the theory of gravity as a nonabelian gauge field associated with local L...
We describe a new perturbation theory for General Relativity, with the chiral first-order Einstein-C...
Considering a higher dimensional Lorentz group as the symmetry of the tangent space, we unify gravit...
Considering a higher dimensional Lorentz group as the symmetry of the tangent space, we unify gravit...
The spin connection enters the theory of gravity as a nonabelian gauge field associated with local L...
Considering a higher dimensional Lorentz group as the symmetry of the tangent space, we unify gravit...
Considering a higher dimensional Lorentz group as the symmetry of the tangent space, we unify gravit...
We continue to develop the pure connection formalism for gravity. We derive the Feynman rules for co...
We demonstrate that classical and quantum electrodynamics can be completed by gravitational torsion ...
In this work we consider the Einstein-Hilbert action in the first order order formalism coupled to D...
We continue to develop the pure connection formalism for gravity. We derive the Feynman rules for co...