Binate group
A group $G$ in which every finitely-generated subgroup $H$ (cf. also Finitely-generated group) admits a homomorphism $\alpha=\alpha_H\colon H\to G$ and an element $u=u_H\in G$ such that for all $h\in H$,
$$h=[\alpha(h),u].$$
(Here, the commutator $[a,b]$ may be taken to mean either $aba^{-1}b^{-1}$ or $a^{-1}b^{-1}ab$.) Thus, the subgroup $H$ is imbedded in $G$ both by $\alpha$ and by inclusion. Such groups $G$ are also called pseudo-mitotic [a4]. Every binate group is both infinitely generated and an acyclic group. This fact seems to be involved in most proofs of acyclicity of presently known acyclic groups [a2]. Existentially closed groups are binate. Every group is a normal subgroup of a normal subgroup of a binate group.
The structure of binate groups is revealed by the study of a binate tower, i.e., a chain of groups $G_0\leq G_1\leq\dots$, homomorphisms $\alpha_i\colon G_i\to G_{i+1}$ and non-trivial structure elements $u_i\in G_{i+1}$ subject to relations of the above form. There is a universal binate tower $\mathcal U(G_0)$, obtained from $G_0$ by a sequence of HNN-extensions, with the characteristic property that every binate tower with base $G_0$ admits a unique smallest sub-binate tower, and this is a quotient binate tower of $\mathcal U(G_0)$ in a unique way [a3]. In particular, the group $\mathcal U(1)$ is highly non-Hopfian and non-co-Hopfian (cf. also Hopf group). Its properties allow one to prove that binate groups admit no non-trivial finite-dimensional linear representation over any field [a1], and similarly for many acyclic groups of automorphisms [a5], [a6].
References
[a1] | R.C. Alperin, A.J. Berrick, "Linear representations of binate groups" J. Pure Appl. Algebra , 94 (1994) pp. 17–23 |
[a2] | A.J. Berrick, "Universal groups, binate groups and acyclicity" , Proc. 1987 Singapore Group Theory Conf. , W. de Gruyter (1989) |
[a3] | A.J. Berrick, K. Varadarajan, "Binate towers of groups" Arch. Math. , 62 (1994) pp. 97–111 |
[a4] | K. Varadarajan, "Pseudo-mitotic groups" J. Pure Appl. Algebra , 37 (1985) pp. 205–213 |
[a5] | A.J. Berrick, "Groups with no nontrivial linear representations" Bull. Austral. Math. Soc. , 50 (1994) pp. 1–11 |
[a6] | A.J. Berrick, "Corrigenda: Groups with no nontrivial linear representations" Bull. Austral. Math. Soc. , 52 (1995) pp. 345–346 |
Binate group. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Binate_group&oldid=16173