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Singularity criteria for (complexified) BPS monopoles

Published online by Cambridge University Press:  01 July 2000

A. J. SMALL
Affiliation:
Department of Mathematics, National University of Ireland, Maynooth, Co. Kildare, Ireland. e-mail: asmall@maths.may.ie

Abstract

In [7], Hitchin showed that the data (∇, Φ), comprising an SU(2) Yang–Mills–Higgs monopole in the Prasad–Sommerfeld limit on ℝ3, encodes faithfully into an auxiliary rank 2 holomorphic vector bundle E˜ over T, the total space of the holomorphic tangent bundle of ℙ1. In this construction ℝ3 is viewed as a subset of H0(ℙ1, [Oscr ](T)) ≅ [Copf ]3.

Generically, the restriction of E˜ to a line is trivial. (The image of a global section ℙzT, for z ∈ [Copf ]3, is referred to here as a line on T.) Hence c1(E˜) = 0 and, for all z ∈ [Copf ]3, there exists m ∈ {0} ∪ ℕ such that E˜[mid ]z ≅ [Oscr ](m) [oplus ] [Oscr ](−m). If m [ges ] 1 then ℙz is a jumping line of E˜ of height m. The jumping lines are parameterized by an analytic set J ⊂ [Copf ]3, which is stratified by height. When the monopole has charge k, the height is bounded above by k. In this case we write J = J1 ∪ … ∪ Jk, where Ji parameterizes jumping lines of height i. A priori, some Ji may be empty.

The analytic continuation of the monopole to [Copf ]3 has singularities over J. To see this recall how the monopole data are recovered from E˜: very briefly, E˜ induces a sheaf [Escr ] = π2*ε*E˜ over [Copf ]3 which is locally free away from J2 ∪ … ∪ Jk, (π2 and ε are defined in Section 2). A holomorphic connection and Higgs field are defined in [Escr ] over [Copf ]3 null planes that cut out a given direction (see [1, 7, 9]). On restriction to ℝ3, [Escr ] gives a rank 2, SU(2) bundle and the holomorphic connection and Higgs field give the monopole data. It is easy to see that the flat connections are singular at points of J: for example, an analogous situation is described in [10].

Type
Research Article
Copyright
2000 Cambridge Philosophical Society

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