On the Hidden Maxwell Superalgebra underlying D=4 Supergravity
Abstract
In this work, we expand the hidden -Lorentz superalgebra underlying supergravity, reaching a (hidden) Maxwell superalgebra. The latter can be viewed as an extension involving cosmological constant of the superalgebra underlying supergravity in flat spacetime. We write the Maurer-Cartan equations in this context and we find some interesting extensions of the antisymmetric -form appearing in the Free Differential Algebra in Minkowski space. The structure of Free Differential Algebras is obtained by considering the zero curvature equations. We write the parametrization of in terms of -forms and we rend the topological features of its extensions manifest. We interestingly find out that the structure of these extensions, and consequently the structure of the corresponding boundary contribution , strongly depends on the form of the extra fermionic generator appearing in the hidden Maxwell superalgebra. The model we develop in this work is defined in an enlarged superspace with respect to the ordinary one, and the extra bosonic and fermionic -forms required for the closure of the hidden Maxwell superalgebra must be considered as physical fields in this enlarged superspace.
Cite
@article{arxiv.1701.04234,
title = {On the Hidden Maxwell Superalgebra underlying D=4 Supergravity},
author = {D. M. Peñafiel and L. Ravera},
journal= {arXiv preprint arXiv:1701.04234},
year = {2018}
}
Comments
26 pages, Erratum of the previous version. Accepted for publication in Fortschritte der Physik, Version of Record online: 21 JUN 2017