Orbi-Instantons and Class S Theories of Type D

Abstract

We investigate the landscape of 6d N=(1,0) D-type orbi-instanton superconformal field theories (SCFTs) and their torus compactifications to four-dimensional class S theories. By analysing a general class of 6d F-theory constructions via generalised quivers, we demonstrate that -- in contrast to the well-characterised A-type series -- the dimensional reductions that admit a 4d class S description on a Riemann sphere with three untwisted D-type punctures constitute only a subset of the full orbi-instanton landscape. For this subclass, we show that the punctures can be effectively characterised by two sets of integers: the s-labels and the m-labels. The s-labels, or ``Kac-type labels'', serve as the D-type analogues to the Kac labels used in A-type theories; we establish their correspondence with ``modified excess numbers'' in the associated 3d mirror theories (magnetic quivers). The m-labels are further introduced to streamline the mapping from 6d generalised quivers to their class S descriptions. Furthermore, we analyse physical distinctions arising from 6d θ angles and explore the hierarchy of Higgs branch flows. In doing so, we uncover instances of ``hidden Higgsings'' -- renormalization group flows present in the 6d parent theories that are not manifest in the puncture closures of the corresponding class S descriptions.