Crystallographic groups and flat manifolds from surface braid groups

Abstract

Let M be a compact surface without boundary, and n≥ 2. We analyse the quotient group Bn(M)/2(Pn(M)) of the surface braid group Bn(M) by the commutator subgroup 2(Pn(M)) of the pure braid group Pn(M). If M is different from the 2-sphere S2, we prove that Bn(M)/2(Pn(M)) is isomorphic rho Pn(M)/2(Pn(M)) Sn, and that Bn(M)/2(Pn(M)) is a crystallographic group if and only if M is orientable. If M is orientable, we prove a number of results regarding the structure of Bn(M)/2(Pn(M)). We characterise the finite-order elements of this group, and we determine the conjugacy classes of these elements. We also show that there is a single conjugacy class of finite subgroups of Bn(M)/2(Pn(M)) isomorphic either to Sn or to certain Frobenius groups. We prove that crystallographic groups whose image by the projection Bn(M)/2(Pn(M)) Sn is a Frobenius group are not Bieberbach groups. Finally, we construct a family of Bieberbach subgroups Gn,g of Bn(M)/2(Pn(M)) of dimension 2ng and whose holonomy group is the finite cyclic group of order n, and if Xn,g is a flat manifold whose fundamental group is Gn,g, we prove that it is an orientable K\"ahler manifold that admits Anosov diffeomorphisms.