Chambered invariants of real Cauchy-Riemann operators

Abstract: Motivated by counting pseudo-holomorphic curves in symplectic Calabi-Yau $3$-folds, this article studies a chamber structure in the space of real Cauchy-Riemann operators on a Riemann surface, and constructs three chambered invariants associated with such operators: $n_{\mathrm{Bl}}$, $n_{1,2}$, $n_{2,1}$. The first of these invariants is defined by counting pseudo-holomorphic sections of bundles whose fibres are modeled on the blow-up of $\mathbf{C}^2/{\pm 1}$. The other two are defined by counting solutions to the ADHM vortex equations. The authors believe that $n_{1,2}$ and $n_{2,1}$ are related to putative symplectic invariants generalizing the Pandharipande-Thomas and rank $2$ Donaldson-Thomas invariants of projective Calabi-Yau $3$-folds.