Edifices: Building-like spaces associated to linear algebraic groups

Abstract

Given a semisimple linear algebraic k-group G, one has a spherical building G, and one can interpret the geometric realisation G( R) of G in terms of cocharacters of G. The aim of this paper is to extend this construction to the case when G is an arbitrary connected linear algebraic group; we call the resulting object G( R) the spherical edifice of G. We also define an object VG( R) which is an analogue of the vector building for a semisimple group; we call VG( R) the vector edifice. The notions of a linear map and an isomorphism between edifices are introduced; we construct some linear maps arising from natural group-theoretic operations. We also devise a family of metrics on VG( R) and show they are all bi-Lipschitz equivalent to each other; with this extra structure, VG( R) becomes a complete metric space. Finally, we present some motivation in terms of geometric invariant theory and variations on the Tits Centre Conjecture.