Dynamical Tadpoles and Weak Gravity Constraints
Abstract
Non-supersymmetric string models are plagued with tadpoles for dynamical fields, which signal uncanceled forces sourced by the vacuum. We argue that in certain cases, uncanceled dynamical tadpoles can lead to inconsistencies with quantum gravity, via violation of swampland constraints. We describe an explicit realization in a supersymmetric toroidal orientifold with D7-branes, where the dynamical tadpole generated by displacement of the D7-branes off its minimum leads to violation of the axion Weak Gravity Conjecture. In these examples, cancellation of dynamical tadpoles provides consistency conditions for the configuration, of dynamical nature (as opposed to the topological conditions of topological tadpoles, such as RR tadpole cancellation in compact spaces). We show that this approach provides a re-derivation of the Z-minimization criterion for AdS vacua giving the gravitational dual of a-maximization in 4d toric quiver SCFTs.
Cite
@article{arxiv.2011.00051,
title = {Dynamical Tadpoles and Weak Gravity Constraints},
author = {Alessandro Mininno and Angel M. Uranga},
journal= {arXiv preprint arXiv:2011.00051},
year = {2023}
}
Comments
v3, added references, JHEP accepted, 34 pages + 1 appendix, 3 figures