Conformally K\"ahler, Einstein-Maxwell Geometry

Abstract

On a given compact complex manifold or orbifold (M,J), we study the existence of Hermitian metrics g in the conformal classes of K\"ahler metrics on (M,J), such that the Ricci tensor of g is of type (1,1) with respect to the complex structure, and the scalar curvature of g is constant. In real dimension 4, such Hermitian metrics provide a Riemannian counter-part of the Einstein--Maxwell (EM) equations in general relativity, and have been recently studied in ambitoric1, LeB0, LeB, KTF. We show how the existence problem of such Hermitian metrics (which we call in any dimension conformally K\"ahler, EM metrics) fits into a formal momentum map interpretation, analogous to results by Donaldson and Fujiki~donaldson, fujiki in the cscK case. This leads to a suitable notion of a Futaki invariant which provides an obstruction to the existence of conformally K\"ahler, EM metrics invariant under a certain group of automorphisms which are associated to a given K\"ahler class, a real holomorphic vector field on (M,J), and a positive normalization constant. Specializing to the toric case, we further define a suitable notion of K-polystability and show it provides a (stronger) necessary condition for the existence of toric, conformally K\"ahler, EM metrics. We use the methods of ambitoric2 to show that on a compact symplectic toric 4-orbifold with second Betti number equal to 2, K-polystability is also a sufficient condition for the existence of (toric) conformally K\"ahler, EM metrics, and the latter are explicitly described as ambitoric in the sense of ambitoric1. As an application, we exhibit many new examples of conformally K\"ahler, EM metrics defined on compact 4-orbifolds, and obtain a uniqueness result for the construction in LeB0.