Refined Invariants and Quantum Curves from Supersymmetric Localization

Abstract

We study an Aganagic-Vafa brane supported on a special Lagrangian submanifold L in a non-compact toric Calabi-Yau threefold X. From the perspective of geometric engineering, the Aganagic-Vafa branes give rise to a special class of half-BPS codimension-two defects in 5d N=1 supersymmetric field theories in the presence of -background. We propose that the defect partition functions give generating functions of refined, non-negative, integral open BPS invariants of the pair (X,L), across different K\"ahler moduli chambers they are expanded in. In the Nekrasov-Shatashvili limit, the partition function provides a partially resummed solution to a q-difference equation that quantizes the mirror curve of X in an unambiguous fashion, in a polarization determined by the discrete labels of the Aganagic-Vafa brane. We demonstrate our method at examples of C3, resolved conifold, resolved A1-singularity, local F0, and local F1.