Stefano Risoli scite author profile

Abstract:We consider the N = 1 superpotential generated in type-II orientifold models by non-geometric fluxes. In particular, we focus on the family of P fluxes, that are related by T-duality transformations to the S-dual of the Q flux. We determine the general rule that transforms a given flux in this family under a single T-duality transformation. This rule allows to derive a complete expression for the superpotential for both the IIA and the IIB theory for the particular case of a T 6 /[Z 2 × Z 2 ] orientifold. We then consider how these fluxes modify the generalised Bianchi identities. In particular, we derive a fully consistent set of quadratic constraints coming from the NS-NS Bianchi identities. On the other hand, the P flux Bianchi identities induce tadpoles, and we determine a set of exotic branes that can be consistently included in order to cancel them. This is achieved by determining a universal transformation rule under T-duality satisfied by all the branes in string theory.

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Non-geometric fluxes and mixed-symmetry potentials

Bergshoeff

Penas

Riccioni

et al. 2015

J. High Energ. Phys.

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We discuss the relation between generalised fluxes and mixed-symmetry potentials. We refer to the fluxes that cannot be described even locally in the framework of supergravity as 'non-geometric'. We first consider the NS fluxes, and point out that the non-geometric R flux is dual to a mixed-symmetry potential with a set of nine antisymmetric indices. We then consider the T-duality family of fluxes whose prototype is the Scherk-Schwarz reduction of the S-dual of the RR scalar of IIB supergravity. Using the relation with mixed-symmetry potentials, we are able to give a complete classification of these fluxes, including the ones that are non-geometric. The non-geometric fluxes again turn out to be dual to potentials containing nine antisymmetric indices. Our analysis suggests that all these fluxes can be understood in the context of double field theory, although for the non-geometric ones one expects a violation of the strong constraint.

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Non-geometric fluxes and mixed-symmetry potentials

Bergshoeff

Penas²,

Riccioni

et al. 2015

Preprint

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Non-geometric fluxes & tadpole conditions for exotic branes

Lombardo

Riccioni

Risoli

2017

J. High Energ. Phys.

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We extend the P-flux analysis carried out recently on the T 6 /[Z 2 × Z 2 ] type-II orientifold model to include all the possible non-geometric fluxes. By deriving universal T-duality rules for all the fluxes, we are able to write down a complete expression for the superpotential for both the IIB and IIA theories. By exploiting the universal T-duality rules that apply to all the branes in string theory, we then identify all the exotic branes that can be consistently included to cancel the tadpoles induced by the fluxes. Finally, we derive the representations of these branes with respect to the SL(2, Z) 7 duality symmetry of the model.

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Stefano Risoli

P fluxes and exotic branes

Non-geometric fluxes and mixed-symmetry potentials

Non-geometric fluxes and mixed-symmetry potentials

Non-geometric fluxes & tadpole conditions for exotic branes

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