Strings in Yang-Mills-Higgs theory coupled to gravity

Abstract

Non-Abelian strings for an Einstein-Yang-Mills-Higgs theory are explicitly constructed. We consider Nf Higgs fields in the fundamental representation of the U(1)xSU(Nc) gauge group in order to have a color-flavor SU(Nc) group remaining unbroken. Choosing a suitable ansatz for the metric, Bogomol'nyi-like first order equations are found and rotationally symmetric solutions are proposed. In the Nf = Nc case, solutions are local strings and are shown to be truly non-Abelian by parameterizing them in terms of orientational collective coordinates. When Nf > Nc, the solutions correspond to semilocal strings which, beside the orientational degrees of freedom, acquire additional collective coordinates parameterizing their transverse size. The low-energy effective theories for the correspondent moduli are found, showing that all zero modes are normalizable in presence of gravity, even in the semilocal case.