Exponential-polynomial equations and dynamical return sets
Abstract
We show that for each finite sequence of algebraic integers α1,...,αn and polynomials P1(x1,...,xn;y1,...,yn),..., Pr(x1,...,xn;y1,...,yn) with algebraic integer coefficients, there are a natural number N, n commuting endomorphisms i:N N of the Nth Cartesian power of the multiplicative group, a point P ∈ N(), and an algebraic subgroup G ≤ N so that the return set \(1,...,n) ∈ n : 1 1 ... n n(P) ∈ G() \ is identical to the set of solutions to the given exponential-polynomial equation: \(1,...,n) ∈ n : P1(1,...,n;α11,...,αnn) = ... = Pr(1,...,n;α11,...,αnn) = 0 \.
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