An antichain condition for infinite groups
Abstract
Let be a subgroup-theoretical property. We introduce an \emph{antichain condition} which forbids the existence of infinite antichains of mutually permutable non- subgroups whose infinite joins remain non-. This is a ''width'' analogue of the real chain condition on non- subgroups, and it extends the usual hierarchy of weak chain conditions (double chain condition, deviation, and ). Our main results show that, within the universe of generalized radical groups, the antichain condition is as rigid as the corresponding chain conditions. For the properties of normality, almost normality, near normality, permutability, modularity, and pronormality, we prove that a generalized radical group satisfies if and only if it satisfies on non- subgroups; equivalently, it satisfies any of the standard weak chain conditions on non- subgroups. In particular, we obtain minimax-type dichotomies: either the group is minimax, or \emph{every} subgroup satisfies . This yields characterizations in terms of Dedekind groups, quasi-Hamiltonian groups, groups with modular subgroup lattice, and -groups. In the pronormal case, one has to deal with locally finite simple groups and a use of the Classification of Finite Simple Groups seems unavoidable.
Cite
@article{arxiv.2603.10759,
title = {An antichain condition for infinite groups},
author = {Mattia Brescia and Bernardo Di Siena and Alessio Russo},
journal= {arXiv preprint arXiv:2603.10759},
year = {2026}
}