M-theory/type IIA duality and K3 in the Gibbons-Hawking approximation

Abstract

We review the geometry of K3 surfaces and then describe this geometry from the point of view of an approximate metric of Gibbons-Hawking form. This metric arises from the M-theory lift of the tree-level supergravity description of type IIA string theory on the T3/Z2 orientifold, the D6/O6 orientifold T-dual to type I on T3. At large base, it provides a good approximation to the exact K3 metric everywhere except in regions that can be made arbitrarily small. The metric is hyperk\"ahler, and we give explicit expressions for the hyperk\"ahler forms as well as harmonic representatives of all cohomology classes. Finally, in the Gibbons-Hawking approximation, we compute the metric on the moduli space of metrics in two ways, first by projecting to transverse traceless deformations (using compensators), and then by computing the naive moduli space metric from dimensional reduction. In either case, we find agreement with the exact coset moduli space of K3 metrics. The T3/Z2 orientifold provides a simple example of a warped compactification, and in a separate paper, this work will be applied to study warped Kaluza-Klein reduction on T3/Z2.