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Bibliographic Details
Main Authors: Hatem, Omar, Siniora, Daoud
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2511.00541
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author Hatem, Omar
Siniora, Daoud
author_facet Hatem, Omar
Siniora, Daoud
contents The question of whether there exists a finite group of order at least three in which every element except one is a commutator has remained unresolved in group theory. In this article, we address this open problem by developing an algorithmic approach that leverages several group theoretic properties of such groups. Specifically, we utilize a result of Frobenius and various necessary properties of such groups, combined with Plesken and Holt's extensive enumeration of finite perfect groups, to systematically examine all finite groups up to a certain order for the desired property. The computational core of our work is implemented using the computer system GAP (Groups, Algorithms, and Programming). We discover two nonisomorphic groups of order 368,640 that exhibit the desired property. Our investigation also establishes that this order is the minimum order for such a group to exist. As a result, this study provides a positive answer to Problem 17.76 in the Kourovka Notebook. In addition to the algorithmic framework, this paper provides a structural description of one of the two groups found.
format Preprint
id arxiv_https___arxiv_org_abs_2511_00541
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A Group with Exactly One Noncommutator
Hatem, Omar
Siniora, Daoud
Group Theory
Primary: 20F12, Secondary: 20-08
The question of whether there exists a finite group of order at least three in which every element except one is a commutator has remained unresolved in group theory. In this article, we address this open problem by developing an algorithmic approach that leverages several group theoretic properties of such groups. Specifically, we utilize a result of Frobenius and various necessary properties of such groups, combined with Plesken and Holt's extensive enumeration of finite perfect groups, to systematically examine all finite groups up to a certain order for the desired property. The computational core of our work is implemented using the computer system GAP (Groups, Algorithms, and Programming). We discover two nonisomorphic groups of order 368,640 that exhibit the desired property. Our investigation also establishes that this order is the minimum order for such a group to exist. As a result, this study provides a positive answer to Problem 17.76 in the Kourovka Notebook. In addition to the algorithmic framework, this paper provides a structural description of one of the two groups found.
title A Group with Exactly One Noncommutator
topic Group Theory
Primary: 20F12, Secondary: 20-08
url https://arxiv.org/abs/2511.00541