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Minimal surfaces and weak gravity

Mehmet Demirtas, Cody Long, Liam McAllister, Mike Stillman

2020Journal of High Energy Physics24 citationsDOIOpen Access PDF

Abstract

A bstract We show that the Weak Gravity Conjecture (WGC) implies a nontrivial upper bound on the volumes of the minimal-volume cycles in certain homology classes that admit no calibrated representatives. In compactification of type IIB string theory on an orientifold X of a Calabi-Yau threefold, we consider a homology class [Σ] ∈ H 4 ( X, ℝ ) represented by a union Σ ∪ of holomorphic and antiholomorphic cycles. The instanton form of the WGC applied to the axion charge [Σ] implies an upper bound on the action of a non-BPS Euclidean D3-brane wrapping the minimal-volume representative Σ min of [Σ]. We give an explicit example of an orientifold X of a hypersurface in a toric variety, and a hyperplane H ⊂ H 4 ( X, ℝ ), such that for any [Σ] ∈ H that satisfies the WGC, the minimal volume obeys Vol (Σ min ) ≪ Vol(Σ ∪ ): the holomorphic and antiholomorphic components recombine to form a much smaller cycle. In particular, the sub-Lattice WGC applied to X implies large recombination, no matter how sparse the sublattice. Non-BPS instantons wrapping Σ min are then more important than would be predicted from a study of BPS instantons wrapping the separate components of Σ ∪ . Our analysis hinges on a novel computation of effective divisors in X that are not inherited from effective divisors of the toric variety.

Topics & Concepts

OrientifoldPhysicsInstantonHolomorphic functionCompactification (mathematics)HypersurfaceEuclidean geometryHyperplaneString theoryF-theoryHeterotic string theoryUpper and lower boundsHomology (biology)Mathematical physicsLattice (music)Effective actionTheoretical physicsComputationToric varietyGravitationAxionConjectureModuli spaceMagnetic monopoleCentral chargePure mathematicsBrane cosmologyString (physics)SuperpotentialGeometry and complex manifoldsBlack Holes and Theoretical PhysicsHomotopy and Cohomology in Algebraic Topology
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