Add to ORKGThe "positive square" of any tensor is presented in a universal and unified manner, valid in Lorentzian manifolds of arbitrary dimension, and independently of any (anti)-symmetry properties of the tensor. For rank-m tensors, the positive square has rank 2m. Positive here means future, that is to say, satisfying the dominant property. The standard energy-momentum and super-energy tensors are recovered as appropriate parts of the general square. A richer structure of principal null directions arises
Results on the observables of the Euclidean supergravity in terms of the Dirac eigenvalues are brief...
We discuss some aspects of the two-dimensional scalar field, considering particularly the action for...
We exploit the fact that, in Minkowski space-time, gamma matrices are possibly more fundamental than...
AbstractRecently proposed Lagrangian for non-Abelian tensor gauge fields contains quadratic kinetic ...
We compute the energy and angular momenta of recent D-dimensional Kerr–AdS solutions to cosmological...
Deser et al. proposed a combination of the Einstein and Landau-Lifshitz pseudotensors such that the ...
In a previous paper, we found an extension of the N-dimensional Lorentz generators that partially re...
We present a model where a non-conventional scalar field may act like dark energy leading to cosmic ...
We describe new theories of composite vector and tensor (p-form) gauge fields made out of zero-dimen...
We show that the Bel–Robinson (BR) tensor is—generically, as well as in its original GR setting—an a...
We discuss some aspects of the two-dimensional scalar field, considering particularly the action for...
We show that the Bel–Robinson (BR) tensor is—generically, as well as in its original GR setting—an a...
In this Letter, we uncover a universal relaxation mechanism of pinned density waves, combining gauge...
In a non-commutative field theory, the energy-momentum tensor obtained from the Noether method needs...
We discuss some aspects of the two-dimensional scalar field, considering particularly the action for...
Results on the observables of the Euclidean supergravity in terms of the Dirac eigenvalues are brief...
We discuss some aspects of the two-dimensional scalar field, considering particularly the action for...
We exploit the fact that, in Minkowski space-time, gamma matrices are possibly more fundamental than...
AbstractRecently proposed Lagrangian for non-Abelian tensor gauge fields contains quadratic kinetic ...
We compute the energy and angular momenta of recent D-dimensional Kerr–AdS solutions to cosmological...
Deser et al. proposed a combination of the Einstein and Landau-Lifshitz pseudotensors such that the ...
In a previous paper, we found an extension of the N-dimensional Lorentz generators that partially re...
We present a model where a non-conventional scalar field may act like dark energy leading to cosmic ...
We describe new theories of composite vector and tensor (p-form) gauge fields made out of zero-dimen...
We show that the Bel–Robinson (BR) tensor is—generically, as well as in its original GR setting—an a...
We discuss some aspects of the two-dimensional scalar field, considering particularly the action for...
We show that the Bel–Robinson (BR) tensor is—generically, as well as in its original GR setting—an a...
In this Letter, we uncover a universal relaxation mechanism of pinned density waves, combining gauge...
In a non-commutative field theory, the energy-momentum tensor obtained from the Noether method needs...
We discuss some aspects of the two-dimensional scalar field, considering particularly the action for...
Results on the observables of the Euclidean supergravity in terms of the Dirac eigenvalues are brief...
We discuss some aspects of the two-dimensional scalar field, considering particularly the action for...
We exploit the fact that, in Minkowski space-time, gamma matrices are possibly more fundamental than...