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Математическая логика, алгебра и теория чисел
Undecidability of the submonoid membership problem for a sufficiently large finite direct power of the Heisenberg group
V. A. Roman'kovab a Federal State Autonomous Educational Institution of Higher Education "Siberian Federal University", 79/10, Svobodny pr., Krasnoyarsk, 660041, Russia
b Sobolev Institute of Mathematics, Omsk Branch, 13, Pevtsov str., Omsk, 644099, Russia
Аннотация:
The submonoid membership problem for a finitely generated group $G$ is the decision problem, where for a given finitely generated submonoid $M$ of $G$ and a group element $g$ it is asked whether $g \in M$. In this paper, we prove that for a sufficiently large direct power $\mathbb{H}^n$ of the Heisenberg group $\mathbb{H}$, there exists a finitely generated submonoid $M$ whose membership problem is algorithmically unsolvable. Thus, an answer is given to the question of M. Lohrey and B. Steinberg about the existence of a finitely generated nilpotent group with an unsolvable submonoid membership problem. It also answers the question of T. Colcombet, J. Ouaknine, P. Semukhin and J. Worrell about the existence of such a group in the class of direct powers of the Heisenberg group. This result implies the existence of a similar submonoid in any free nilpotent group $N_{k,c}$ of sufficiently large rank $k$ of the class $c\geq 2$. The proofs are based on the undecidability of Hilbert's 10th problem and interpretation of Diophantine equations in nilpotent groups.
Ключевые слова:
nilpotent group, Heisenberg group, direct product, submonoid membership problem, rational set, decidability, Hilbert's 10th problem, interpretability of Diophantine equations in groups.
Поступила 5 октября 2022 г., опубликована 31 марта 2023 г.
Образец цитирования:
V. A. Roman'kov, “Undecidability of the submonoid membership problem for a sufficiently large finite direct power of the Heisenberg group”, Сиб. электрон. матем. изв., 20:1 (2023), 293–305
Образцы ссылок на эту страницу:
https://www.mathnet.ru/rus/semr1588 https://www.mathnet.ru/rus/semr/v20/i1/p293
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