English

Quantum Modular $\widehat Z{}^G$-Invariants

High Energy Physics - Theory 2024-03-12 v2 Mathematical Physics math.MP Number Theory

Abstract

We study the quantum modular properties of Z^G\widehat Z{}^G-invariants of closed three-manifolds. Higher depth quantum modular forms are expected to play a central role for general three-manifolds and gauge groups GG. In particular, we conjecture that for plumbed three-manifolds whose plumbing graphs have nn junction nodes with definite signature and for rank rr gauge group GG, that Z^G\widehat Z{}^G is related to a quantum modular form of depth nrnr. We prove this for G=SU(3)G={\rm SU}(3) and for an infinite class of three-manifolds (weakly negative Seifert with three exceptional fibers). We also investigate the relation between the quantum modularity of Z^G\widehat Z{}^G-invariants of the same three-manifold with different gauge group GG. We conjecture a recursive relation among the iterated Eichler integrals relevant for Z^G\widehat Z{}^G with G=SU(2)G={\rm SU}(2) and SU(3){\rm SU}(3), for negative Seifert manifolds with three exceptional fibers. This is reminiscent of the recursive structure among mock modular forms playing the role of Vafa-Witten invariants for SU(N){\rm SU}(N). We prove the conjecture when the three-manifold is moreover an integral homological sphere.

Keywords

Cite

@article{arxiv.2304.03934,
  title  = {Quantum Modular $\widehat Z{}^G$-Invariants},
  author = {Miranda C. N. Cheng and Ioana Coman and Davide Passaro and Gabriele Sgroi},
  journal= {arXiv preprint arXiv:2304.03934},
  year   = {2024}
}
R2 v1 2026-06-28T09:55:15.143Z