We argue that compatibility with elementary particle physics requires gravitational theories with torsion to be unable to distinguish between orbital angular momentum and spin. An important consequence of this principle is that spinless particles must move along autoparallel trajectories, not along geodesics
We derive upper and lower limits for the mass–radius ratio of spin-fluid spheres in Einstein–Cartan ...
We argue that the natural framework for embedding the ideas of deformed, or doubly, special relativi...
In the framework of the teleparallel equivalent of general relativity, we study the dynamics of a gr...
It is well-entrenched folklore that torsion gravity theories predict observationally negligible tors...
We discuss the structure of the Poincare gauge theory of gravity (PG) that can be considered as the ...
It is known that General Relativity ({\bf GR}) uses Lorentzian Manifold $(M_4;g)$ as a geometrical m...
In Einstein-Cartan theory, by the use of the general Noether theorem, the general covariant angular-...
The present work is a review of a series of papers, published in the last ten years, comprising an a...
We demonstrate that classical and quantum electrodynamics can be completed by gravitational torsion ...
We argue that a spontaneous breakdown of local Weyl invariance offers a mechanism in which gravitati...
According to the teleparallel equivalent of general relativity, curvature and torsion are two equiva...
The gravitational spin connection appears in gravity as a non-Abelian gauge field for the Lorentz gr...
In this work, we present the general differential geometry of a background in which the space–time h...
We analyze the behavior of a spinning particle in gravity, both from a quantum and a classical point...
© 2019 Iop Publishing. This work was partly supported by the projects FIS2014-52837-P (Spanish MINEC...
We derive upper and lower limits for the mass–radius ratio of spin-fluid spheres in Einstein–Cartan ...
We argue that the natural framework for embedding the ideas of deformed, or doubly, special relativi...
In the framework of the teleparallel equivalent of general relativity, we study the dynamics of a gr...
It is well-entrenched folklore that torsion gravity theories predict observationally negligible tors...
We discuss the structure of the Poincare gauge theory of gravity (PG) that can be considered as the ...
It is known that General Relativity ({\bf GR}) uses Lorentzian Manifold $(M_4;g)$ as a geometrical m...
In Einstein-Cartan theory, by the use of the general Noether theorem, the general covariant angular-...
The present work is a review of a series of papers, published in the last ten years, comprising an a...
We demonstrate that classical and quantum electrodynamics can be completed by gravitational torsion ...
We argue that a spontaneous breakdown of local Weyl invariance offers a mechanism in which gravitati...
According to the teleparallel equivalent of general relativity, curvature and torsion are two equiva...
The gravitational spin connection appears in gravity as a non-Abelian gauge field for the Lorentz gr...
In this work, we present the general differential geometry of a background in which the space–time h...
We analyze the behavior of a spinning particle in gravity, both from a quantum and a classical point...
© 2019 Iop Publishing. This work was partly supported by the projects FIS2014-52837-P (Spanish MINEC...
We derive upper and lower limits for the mass–radius ratio of spin-fluid spheres in Einstein–Cartan ...
We argue that the natural framework for embedding the ideas of deformed, or doubly, special relativi...
In the framework of the teleparallel equivalent of general relativity, we study the dynamics of a gr...
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