An equivalent of Kronecker's Theorem for powers of an Algebraic Number and Structure of Linear Recurrences of fixed length

Abstract

After defining a notion of ε-density, we provide for any real algebraic number α an estimate of the smallest ε such that for each m>1 the set of vectors of the form (t,tα,...,tαm-1) for t∈ is ε-dense modulo 1, in terms of the multiplicative Mahler measure M(A(x)) of the minimal integral polynomial A(x) of α, and independently of m. In particular, we show that if α has degree d it is possible to take ε = 2[d/2]/M(A(x)). On the other hand using asymptotic estimates for Toeplitz determinants we show that for sufficiently large m we cannot have ε-density if ε is a fixed number strictly smaller than 1/M(A(x)). As a byproduct of the proof we obtain a result of independent interest about the structure of the -module of integral linear recurrences of fixed length determined by a non-monic polynomial.