Novel Lagrangians are discussed in which (non-abelian) electric and magnetic gauge fields appear on a par. To ensure that these Lagrangians describe the correct number of degrees of freedom, tensor gauge fields are included with corresponding gauge symmetries. Non-abelian gauge symmetries that involve both the electric and the magnetic gauge fields can then be realized at the level of a single gauge invariant Lagrangian, without the need of performing duality transformations prior to introducing the gauge couplings. The approach adopted, which was initially developed for gaugings of maximal supergravity, is particularly suited for the study of flux compactifications
It is shown how to break the symmetry of a Lagrangian with duality symmetry between electric and mag...
In their simplest form, metric-like Lagrangians for higher-spin massless fields are usually assumed ...
AbstractIn their simplest form, metric-like Lagrangians for higher-spin massless fields are usually ...
Novel lagrangians are discussed in which (non-abelian) electric and magnetic gauge fields appear on ...
Novel Lagrangians are discussed in which (non-abelian) electric and magnetic gauge fields appear on ...
Novel lagrangians are discussed in which (non-abelian) electric and magnetic gauge fields appear on ...
Novel Lagrangians are discussed in which (non-abelian) electric and magnetic gauge fields appear on ...
We suggest an extension of the gauge principle which includes tensor gauge fields. The extended non-...
There exists a formulation of the Maxwell theory in terms of two vector potentials, one electric and...
The variety of consistent 'gauging' deformations of supergravity theories in four dimensions depends...
In recent papers we suggested an innite-dimensional extension of gauge transformations which include...
International audienceThe variety of consistent ‘gauging’ deformations of supergravity theories in f...
Recently we introduced an extended vector bundle $X$ on which non-Abelian tensor gauge fields realiz...
Recently we introduced an extended vector bundle $X$ on which non-Abelian tensor gauge fields realiz...
Recently we introduced an extended vector bundle $X$ on which non-Abelian tensor gauge fields realiz...
It is shown how to break the symmetry of a Lagrangian with duality symmetry between electric and mag...
In their simplest form, metric-like Lagrangians for higher-spin massless fields are usually assumed ...
AbstractIn their simplest form, metric-like Lagrangians for higher-spin massless fields are usually ...
Novel lagrangians are discussed in which (non-abelian) electric and magnetic gauge fields appear on ...
Novel Lagrangians are discussed in which (non-abelian) electric and magnetic gauge fields appear on ...
Novel lagrangians are discussed in which (non-abelian) electric and magnetic gauge fields appear on ...
Novel Lagrangians are discussed in which (non-abelian) electric and magnetic gauge fields appear on ...
We suggest an extension of the gauge principle which includes tensor gauge fields. The extended non-...
There exists a formulation of the Maxwell theory in terms of two vector potentials, one electric and...
The variety of consistent 'gauging' deformations of supergravity theories in four dimensions depends...
In recent papers we suggested an innite-dimensional extension of gauge transformations which include...
International audienceThe variety of consistent ‘gauging’ deformations of supergravity theories in f...
Recently we introduced an extended vector bundle $X$ on which non-Abelian tensor gauge fields realiz...
Recently we introduced an extended vector bundle $X$ on which non-Abelian tensor gauge fields realiz...
Recently we introduced an extended vector bundle $X$ on which non-Abelian tensor gauge fields realiz...
It is shown how to break the symmetry of a Lagrangian with duality symmetry between electric and mag...
In their simplest form, metric-like Lagrangians for higher-spin massless fields are usually assumed ...
AbstractIn their simplest form, metric-like Lagrangians for higher-spin massless fields are usually ...