English

Exploring 5d BPS Spectra with Exponential Networks

High Energy Physics - Theory 2020-01-08 v2 Algebraic Geometry

Abstract

We develop geometric techniques for counting BPS states in five-dimensional gauge theories engineered by M theory on a toric Calabi-Yau threefold. The problem is approached by studying framed 3d-5d wall-crossing in presence of a single M5 brane wrapping a special Lagrangian submanifold LL. The spectrum of 3d-5d BPS states is encoded by the geometry of the manifold of vacua of the 3d-5d system, which further coincides with the mirror curve describing moduli of the Lagrangian brane. Information about the BPS spectrum is extracted from the geometry of the mirror curve by construction of a nonabelianization map for exponential networks. For the simplest Calabi-Yau, C3\mathbb{C}^3 we reproduce the count of 5d BPS states encoded by the Mac Mahon function in the context of topological strings, and match predictions of 3d tttt^* geometry for the count of 3d-5d BPS states. We comment on applications of our construction to the study of enumerative invariants of toric Calabi-Yau threefolds.

Cite

@article{arxiv.1811.02875,
  title  = {Exploring 5d BPS Spectra with Exponential Networks},
  author = {Sibasish Banerjee and Pietro Longhi and Mauricio Romo},
  journal= {arXiv preprint arXiv:1811.02875},
  year   = {2020}
}

Comments

A summary for mathematicians is included; v2: updated references

R2 v1 2026-06-23T05:07:38.366Z