Witten's proof of positive gravitational energy involved an apparent choice of supergauge, through a constraint on the basic spinor parameter. We show that the value of the energy is, as it must be on supergravity grounds, independent of this choice
We first describe a class of spinor-curvature identities (SCI) which have gravitational applications...
The Hamiltonian for general relativity obtained in a previous paper furnishes a definition of energy...
We consider maximal gauged supergravity in 4D with ISO(7) gauge group, which arises from a consisten...
Witten's proof of positive gravitational energy involved an apparent choice of supergauge, through a...
Classical gravity has sufficient supersymmetric extension that its Hamiltonian is expressible as a P...
Classical gravity has sufficient supersymmetric extension that its Hamiltonian is expressible as a P...
We show that the total energy in supergravity theory is nonnegative. The derivation is based on the ...
We show that the total energy in supergravity theory is nonnegative. The derivation is based on the ...
Classical gravity has sufficient supersymmetric extension that its Hamiltonian is expressible as a P...
AbstractFollowing the Witten–Nester formalism, we present a useful prescription using Weyl spinors t...
Following the Witten–Nester formalism, we present a useful prescription using Weyl spinors towards t...
The total gravitational field energy functional is shown to have only one extremum under variation o...
The energy of the gravitational field is shown to be positive-definite for the case where initially ...
The energy of the gravitational field is shown to be positive-definite for the case where initially ...
In the Tetrad Representation of General Relativity, the energy-momentum expression, found by Moller ...
We first describe a class of spinor-curvature identities (SCI) which have gravitational applications...
The Hamiltonian for general relativity obtained in a previous paper furnishes a definition of energy...
We consider maximal gauged supergravity in 4D with ISO(7) gauge group, which arises from a consisten...
Witten's proof of positive gravitational energy involved an apparent choice of supergauge, through a...
Classical gravity has sufficient supersymmetric extension that its Hamiltonian is expressible as a P...
Classical gravity has sufficient supersymmetric extension that its Hamiltonian is expressible as a P...
We show that the total energy in supergravity theory is nonnegative. The derivation is based on the ...
We show that the total energy in supergravity theory is nonnegative. The derivation is based on the ...
Classical gravity has sufficient supersymmetric extension that its Hamiltonian is expressible as a P...
AbstractFollowing the Witten–Nester formalism, we present a useful prescription using Weyl spinors t...
Following the Witten–Nester formalism, we present a useful prescription using Weyl spinors towards t...
The total gravitational field energy functional is shown to have only one extremum under variation o...
The energy of the gravitational field is shown to be positive-definite for the case where initially ...
The energy of the gravitational field is shown to be positive-definite for the case where initially ...
In the Tetrad Representation of General Relativity, the energy-momentum expression, found by Moller ...
We first describe a class of spinor-curvature identities (SCI) which have gravitational applications...
The Hamiltonian for general relativity obtained in a previous paper furnishes a definition of energy...
We consider maximal gauged supergravity in 4D with ISO(7) gauge group, which arises from a consisten...