English

Linear equations with monomial constraints and decision problems in abelian-by-cyclic groups

Symbolic Computation 2024-09-09 v3 Logic in Computer Science Commutative Algebra Group Theory

Abstract

We show that it is undecidable whether a system of linear equations over the Laurent polynomial ring Z[X±]\mathbb{Z}[X^{\pm}] admit solutions where a specified subset of variables take value in the set of monomials {XzzZ}\{X^z \mid z \in \mathbb{Z}\}. In particular, we construct a finitely presented Z[X±]\mathbb{Z}[X^{\pm}]-module, where it is undecidable whether a linear equation Xz1f1++Xznfn=f0X^{z_1} \boldsymbol{f}_1 + \cdots + X^{z_n} \boldsymbol{f}_n = \boldsymbol{f}_0 has solutions z1,,znZz_1, \ldots, z_n \in \mathbb{Z}. This contrasts the decidability of the case n=1n = 1, which can be deduced from Noskov's Lemma. We apply this result to settle a number of problems in computational group theory. We show that it is undecidable whether a system of equations has solutions in the wreath product ZZ\mathbb{Z} \wr \mathbb{Z}, providing a negative answer to an open problem of Kharlampovich, L\'{o}pez and Miasnikov (2020). We show that there exists a finitely generated abelian-by-cyclic group in which the problem of solving a single quadratic equation is undecidable. We also construct a finitely generated abelian-by-cyclic group, different to that of Mishchenko and Treier (2017), in which the Knapsack Problem is undecidable. In contrast, we show that the problem of Coset Intersection is decidable in all finitely generated abelian-by-cyclic groups.

Keywords

Cite

@article{arxiv.2406.08480,
  title  = {Linear equations with monomial constraints and decision problems in abelian-by-cyclic groups},
  author = {Ruiwen Dong},
  journal= {arXiv preprint arXiv:2406.08480},
  year   = {2024}
}

Comments

Corrected an error in Lemma 6.8. Supersedes arXiv:2309.08811

R2 v1 2026-06-28T17:03:32.563Z