Integral closure of rings of integer-valued polynomials on algebras

Abstract

Let D be an integrally closed domain with quotient field K. Let A be a torsion-free D-algebra that is finitely generated as a D-module. For every a in A we consider its minimal polynomial μa(X)∈ D[X], i.e. the monic polynomial of least degree such that μa(a)=0. The ring IntK(A) consists of polynomials in K[X] that send elements of A back to A under evaluation. If D has finite residue rings, we show that the integral closure of IntK(A) is the ring of polynomials in K[X] which map the roots in an algebraic closure of K of all the μa(X), a∈ A, into elements that are integral over D. The result is obtained by identifying A with a D-subalgebra of the matrix algebra Mn(K) for some n and then considering polynomials which map a matrix to a matrix integral over D. We also obtain information about polynomially dense subsets of these rings of polynomials.