Elementary equivalence of infinite-dimensional classical groups

Abstract

Let D be a division ring such that the number of conjugacy classes in the multiplicative group D* is equal to the power of D*. Suppose that H(V) is the group GL(V) or PGL(V), where V is an infinite-dimensional vector space over D. We prove, in particular, that, uniformly in dim(V) and D, the first-order theory of H(V) is mutually syntactically interpretable with the theory of the two-sorted structure <dim(V),D> (whose only relations are the division ring operations on D) in the second-order logic with quantification over arbitrary relations of power <= dim(V). A certain analogue of this results is proved for the groups the collinear groups GammaL(V) and PGammaL(V). These results imply criteria of elementary equivalence for infinite-dimensional classical groups of types H=GammaL, PGammaL, GL, PGL over division rings, and solve, for these groups, a problem posed by Felgner. It follows from the criteria that if H(V1), H(V2) are elementarily equivalent, then the cardinals dim(V1) and dim(V2) are second order equivalent as sets.