Non-Higgsable abelian gauge symmetry and $\mathrm{F}$-theory on fiber products of rational elliptic surfaces

Author(s)

Morrison, David R.; Park, Daniel S.; Taylor IV, Washington

Abstract

We construct a general class of Calabi–Yau threefolds from fiber products of rational elliptic surfaces with section, generalizing a construction of Schoen to include all Kodaira fiber types. The resulting threefolds each have two elliptic fibrations with section over rational elliptic surfaces and blowups thereof. These elliptic fibrations generally have nonzero Mordell–Weil rank. Each of the elliptic fibrations has a physical interpretation in terms of a six-dimensional F-theory model with one or more non-Higgsable abelian gauge fields. Many of the models in this class have mild singularities that do not admit a Calabi–Yau resolution; this does not seem to compromise the physical integrity of the theory and can be associated in some cases with massless hypermultiplets localized at the singular loci. In some of these constructions, however, we find examples of abelian gauge fields that cannot be “un-Higgsed” to a nonabelian gauge field without producing unphysical singularities that cannot be resolved. The models studied here can also be used to exhibit T-duality for a class of little string theories.

Date issued

2018-09

URI

https://hdl.handle.net/1721.1/126423

Department

Massachusetts Institute of Technology. Department of Mechanical Engineering
Massachusetts Institute of Technology. Department of Civil and Environmental Engineering
Massachusetts Institute of Technology. Department of Physics

Journal

Advances in Theoretical and Mathematical Physics

Publisher

International Press of Boston

Citation

Morrison, David R. et al. "Non-Higgsable abelian gauge symmetry and F-theory on fiber products of rational elliptic surfaces." Advances in Theoretical and Mathematical Physics 22, 1 (September 2018): 177 – 245

Version: Original manuscript

ISSN

1095-0761

1095-0753