S-unit equations in modules and linear-exponential Diophantine equations
Abstract
Let be a positive integer, and be a finitely presented module over the Laurent polynomial ring . We consider S-unit equations over : these are equations of the form , where the variables range over the set of monomials (with coefficient 1) of . When is a power of a prime number , we show that the solution set of an S-unit equation over is effectively -normal in the sense of Derksen and Masser (2015), generalizing their result on S-unit equations in fields of prime characteristic. When is an arbitrary positive integer, we show that deciding whether an S-unit equation over admits a solution is Turing equivalent to solving a system of linear-exponential Diophantine equations, whose base contains the prime divisors of . Combined with a recent result of Karimov, Luca, Nieuwveld, Ouaknine and Worrell (2025), this yields decidability when has at most two distinct prime divisors. This also shows that proving either decidability or undecidability in the case of arbitrary would entail major breakthroughs in number theory. We mention some potential applications of our results, such as deciding Submonoid Membership in wreath products of the form , as well as progressing towards solving the Skolem problem in rings whose additive group is torsion. More connections in these directions will be explored in follow up papers.
Keywords
Cite
@article{arxiv.2505.19141,
title = {S-unit equations in modules and linear-exponential Diophantine equations},
author = {Ruiwen Dong and Doron Shafrir},
journal= {arXiv preprint arXiv:2505.19141},
year = {2025}
}
Comments
80 pages, corrected spelling mistake for a name