English

Selfdual spaces with complex structures, Einstein-Weyl geometry and geodesics

Differential Geometry 2009-09-25 v1 Algebraic Geometry

Abstract

We study the Jones and Tod correspondence between selfdual conformal 4-manifolds with a conformal vector field and abelian monopoles on Einstein-Weyl 3-manifolds, and prove that invariant complex structures correspond to shear-free geodesic congruences. Such congruences exist in abundance and so provide a tool for constructing interesting selfdual geometries with symmetry, unifying the theories of scalar-flat Kahler metrics and hypercomplex structures with symmetry. We also show that in the presence of such a congruence, the Einstein-Weyl equation is equivalent to a pair of coupled monopole equations, and we solve these equations in a special case. The new Einstein-Weyl spaces, which we call Einstein-Weyl ``with a geodesic symmetry'', give rise to hypercomplex structures with two commuting triholomorphic vector fields.

Keywords

Cite

@article{arxiv.math/9911117,
  title  = {Selfdual spaces with complex structures, Einstein-Weyl geometry and geodesics},
  author = {David M. J. Calderbank and H. Pedersen},
  journal= {arXiv preprint arXiv:math/9911117},
  year   = {2009}
}

Comments

30 pages, 7 figures, to appear in Ann. Inst. Fourier. 50 (2000)