Symplectic Singularities, Color Confinement, and the Quantum Dirac Sheaf

Abstract

A singularity C2r/G, with G a split symplectic reflection group, may or may not be crepant. Then the total space X of the Donagi-Witten integrable system is crepant for some 4d N=2 SCFT and non-crepant for others. Which physical mechanism controls the (dis)crepancy? Surprisingly, it is the detailed physics of color confinement (and its generalizations for non-Lagrangian QFT). A 4d N=2 SCFT carries a Frobenius algebra R, the quantum cohomology ring of X (defined via mirror symmetry), and X is crepant iff its central Witten index is equal to its Euler number (X). When the SCFT has a Lagrangian, R is fixed by compatibility with confinement, and physics may require a discrepancy to be present. The quantum cohomology depends on quantum-geometric data, and a classical Seiberg-Witten geometry may have several inequivalent R: a relevant quantum datum is the Dirac sheaf L which refines Dirac charge quantization. We get several other results of independent interest, and we fully classify all special geometries of -type in rank r>6.