Mahler's problem and Turyn polynomials
Abstract
Mahler's problem asks for the largest possible value of the Mahler measure, normalized by the norm, of a polynomial with coefficients and large degree. We establish a new record value in this problem exceeding by analyzing certain Turyn polynomials, which are defined by cyclically shifting the coefficients of a Fekete polynomial by a prescribed amount. It was recently established that the distribution of values over the unit circle of Fekete polynomials of large degree is effectively modeled by a particular random point process. We extend this analysis to the Turyn polynomials, and determine expressions for the asymptotic normalized Mahler measure of these polynomials, as well as for their normalized norms. We also describe a number of calculations on the corresponding random processes, which indicate that the Turyn polynomials where the shift is approximately of the length have Mahler measure exceeding of their norm. Further, we show that these asymptotic values are not disturbed by a small change to make polynomials having entirely coefficients, which establishes the result on Mahler's problem. We also estimate that the limiting value of the normalized norm of these polynomials exceeds , in connection with a question of Newman.
Cite
@article{arxiv.2405.08281,
title = {Mahler's problem and Turyn polynomials},
author = {Michael J. Mossinghoff},
journal= {arXiv preprint arXiv:2405.08281},
year = {2025}
}
Comments
29 pages, 5 figures