Your search keyword '"Dantas, Alex C."' showing total 4 results

1. Self-similarity of some soluble relatively free groups

Author

Berlatto, Adilson A., Dantas, Alex C., and Santos, Tulio M. G.

Subjects

Mathematics - Group Theory

Abstract

In this paper we prove that a free nilpotent group of finite rank is transitive self-similar. In contrast, we prove that a free metabelian group of rank $r \geq 2$ is not transitive self-similar.

Published

2024

2. On wreath product occurring as subgroup of automata group

Author

Dantas, Alex C., Oliveira, Junio R., and Santos, Tulio M. G.

Subjects

Mathematics - Group Theory

Abstract

A finitely generated group is said to be an automata group if it admits a faithful self-similar finite-state representation on some regular $m$-tree. We prove that if $G$ is a subgroup of an automata group, then for each finitely generated abelian group $A$, the wreath product $A \wr G$ is a subgroup of an automata group. We obtain, for example, that $C_2 \wr (C_{2} \wr \mathbb{Z})$, $\mathbb{Z} \wr (C_2 \wr \mathbb{Z})$, $C_2 \wr (\mathbb{Z} \wr \mathbb{Z})$, and $\mathbb{Z} \wr (\mathbb{Z} \wr \mathbb{Z})$ are subgroups of automata groups. In the particular case $\mathbb{Z} \wr (\mathbb{Z} \wr \mathbb{Z})$, we prove that it is a subgroup of a two-letters automata group; this solves Problem 15.19 - (b) of the Kourovka Notebook proposed by A. M. Brunner and S. Sidki in 2000 [8, 17].

Published

2024

3. Self-similarity of some soluble relatively free groups

Author

Berlatto, Adilson A., Dantas, Alex C., and Santos, Tulio M. G.

Published

2023

4. Self-similar abelian groups and their centralizers

Author

Dantas, Alex C., Santos, Tulio M. G., and Sidki, Said N.

Subjects

FOS: Mathematics, Discrete Mathematics and Combinatorics, Group Theory (math.GR), Geometry and Topology, Mathematics - Group Theory

Abstract

We extend results on transitive self-similar abelian subgroups of the group of automorphisms $\mathcal{A}_m$ of an $m$-ary tree $\mathcal{T}_m$ in \cite{BS}, to the general case where the permutation group induced on the first level of the tree has $s\geq 1$ orbits. We prove that such a group $A$ embeds in a self-similar abelian group $A^*$ which is also a maximal abelian subgroup of $\mathcal{A}_m$. The construction of $A^*$ is based on the definition of a free monoid $\Delta$ of rank $s$ of partial diagonal monomorphisms of $\mathcal{A}_m$, which is used to determine the structure of $C_{\mathcal{A}_m}(A)$, the centralizer of $A$ in $\mathcal{A}_m$. Indeed, we prove $A^*=C_{\mathcal{A}_m} (\Delta(A))=\overline{ \Delta({B(A)})}$, where $B(A)$ denotes the product of the projections of $A$ in its action on the different $s$ orbits of maximal subtrees of $\mathcal{T}_m$ and bar denotes the topological closure. When $A$ is a torsion self-similar abelian group, it is shown that it is necessarily of finite exponent. Moreover, we extend recent constructions of self-similar free abelian groups of infinite enumerable rank to examples of such groups which are also $\Delta$-invariant for $s=2$. Finally, we focus on self-similar cyclic groups of automorphisms of $\mathcal{T}_m$ and compute their centralizers when $m=4.$, Comment: 25 pages

Published

2023