Convergence of Fourier--Bohr coefficients for regular Euclidean model sets

Abstract: It is well known that the Fourier--Bohr coefficients of regular model sets exist and are uniformly converging, volume-averaged exponential sums. Several proofs for this statement are known, all of which use fairly abstract machinery. For instance, there is one proof that uses dynamical systems theory and another one based on Meyer's theory of harmonious sets. Nevertheless, since the coefficients can be defined in an elementary way, it would be nice to have an alternative proof by similarly elementary means, which is to say by standard estimates of exponential sums under an appropriate use of the Poisson summation formula. Here, we present such a proof for the class of regular Euclidean model sets, that is, model sets with Euclidean physical and internal spaces and topologically regular windows with almost no boundary.