Add to ORKGWe establish the consistency of duality transformations for generic systems of N=2 vector supermultiplets in the presence of a chiral background field. This is relevant, for instance, when dealing with spurion fields or when considering higher-derivative couplings of vector multiplets to supergravity. We point out that under duality most quantities do not transform as functions. With few exceptions, true functions are nonholomorphic, even though the duality transformations themselves are holomorphic in nature
We review characteristic features of N=2 supersymmetric vector multiplets and discuss symplectic rep...
The massless limit of a vector multiplet coupled to supergravity reduces smoothly to a sum of separa...
Duality symmetries of supergravity theories are powerful tools to restrict the number of possible ac...
The Abelian and non-Abelian gauge potentials Auv are known to describe chiral fields. Here we study ...
The Abelian and non-Abelian gauge potentials Auv are known to describe chiral fields. Here we study ...
We briefly review the basics of electric-magnetic duality symmetry and their geometric interpretatio...
We consider duality transformations in N=2, d=4 Yang-Mills theory coupled to N=2 supergravity. A sym...
We study the general deformation of N = 2 supersymmetry transformations of a vector multiplet that f...
In these lectures I review the general structure of electric--magnetic duality rotations in every ev...
We revisit the U(1) duality-invariant nonlinear models for N = 1 and N = 2 vector multiplets coupled...
The off-shell vector-tensor multiplet is considered in an arbitrary background of N=2 vector supermu...
We consider some aspects of classical S-duality transformations in first order actions taken into ac...
We review the general theory of duality rotations which, in four dimensions, exchange electric with ...
The massless limit of a vector multiplet coupled to supergravity reduces smoothly to a sum of separa...
The massless limit of a vector multiplet coupled to supergravity reduces smoothly to a sum of separa...
We review characteristic features of N=2 supersymmetric vector multiplets and discuss symplectic rep...
The massless limit of a vector multiplet coupled to supergravity reduces smoothly to a sum of separa...
Duality symmetries of supergravity theories are powerful tools to restrict the number of possible ac...
The Abelian and non-Abelian gauge potentials Auv are known to describe chiral fields. Here we study ...
The Abelian and non-Abelian gauge potentials Auv are known to describe chiral fields. Here we study ...
We briefly review the basics of electric-magnetic duality symmetry and their geometric interpretatio...
We consider duality transformations in N=2, d=4 Yang-Mills theory coupled to N=2 supergravity. A sym...
We study the general deformation of N = 2 supersymmetry transformations of a vector multiplet that f...
In these lectures I review the general structure of electric--magnetic duality rotations in every ev...
We revisit the U(1) duality-invariant nonlinear models for N = 1 and N = 2 vector multiplets coupled...
The off-shell vector-tensor multiplet is considered in an arbitrary background of N=2 vector supermu...
We consider some aspects of classical S-duality transformations in first order actions taken into ac...
We review the general theory of duality rotations which, in four dimensions, exchange electric with ...
The massless limit of a vector multiplet coupled to supergravity reduces smoothly to a sum of separa...
The massless limit of a vector multiplet coupled to supergravity reduces smoothly to a sum of separa...
We review characteristic features of N=2 supersymmetric vector multiplets and discuss symplectic rep...
The massless limit of a vector multiplet coupled to supergravity reduces smoothly to a sum of separa...
Duality symmetries of supergravity theories are powerful tools to restrict the number of possible ac...