E-string spectrum and typical F-theory geometry

Abstract

In recent scans of 4D F-theory geometric models, it was shown that a dominant majority of the base geometries only support SU(2), G2, F4 and E8 gauge groups. Moreover, most of these gauge groups are shown to couple to strongly coupled "conformal matter" sectors. For example, the E8 gauge group can couple to the compactification of 6D E-string theory on a complex curve. In this paper, we initiate the investigation of these strongly coupled sectors by studying the spectrum of 6D E-string theory. We construct a resolved elliptic Calabi-Yau threefold of a non-minimal Weierstrass model, which contains a non-flat fiber with the topology of generalized del Pezzo surface. The spectrum of E-string theory then arises from M2 brane wrapping modes on various 2-cycles on the non-flat fiber. Finally, we discuss the compactification of these fields to 4D.