Is there a one-relator group with property (T)?
That is, is there an $n > 2$, and some $x \in F_n$ (the free group on $n$ generators) such that the quotient of $F_n$ by the normal subgroup generated by $x$ has Kazhdan's property $\mathrm{(T)}$ ?
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3$\begingroup$ Related: mathoverflow.net/questions/218145/… $\endgroup$– SeiriosSep 16, 2015 at 9:26
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$\begingroup$ The answer was a trivial no, but it would have been interesting to ask whether a 1-relator group may contain an infinite Property T subgroup. $\endgroup$– YCorMar 15, 2021 at 11:32
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3 Answers
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No, the abelianization of any such quotient will be infinite (the abelianization of $F_n$ is $\mathbb{Z}^n$, which does not have a cyclic subgroup of finite index), but Kazhdan groups always have finite abelianization.
answered Sep 16, 2015 at 16:37
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5$\begingroup$ The correct answer is that a 1-relator group on $n\ge 2$ generators surjects onto $\mathbf{Z}^{n-1}$ and hence on $\mathbf{Z}$. $\endgroup$– YCorMar 15, 2021 at 11:33
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In fact, much more is true: if $H$ is a finitely generated subgroup of a one-relator group and $H$ has property (T) then $H$ is finite. Indeed, a classical theorem of Brodskii and Howie asserts that torsion-free one-relator groups are locally indicable, meaning that every non-trivial finitely generated subgroup surjects $\mathbb{Z}$, and in particular can’t have property (T). It’s also true that one-relator groups with torsion have subgroups of finite index that are locally indicable.
[Thanks to Giles Gardam for pointing out the correct attribution for this fact. The papers of Brodskii and Howie proving that one-relator groups without torsion are locally indicable are:
"Equations over groups and groups with one defining relation." (Russian) Uspekhi Mat. Nauk 35 (1980), no. 4(214), 183.
Howie, James "On locally indicable groups." Math. Z. 180 (1982), no. 4, 445–461. ]
By popular request, I'll leave in a few words about how to deduce this from recent work of Helfer--Wise and Louder--W.
Corollary 5 of this paper of Louder and myself should state:
Let $G$ be a torsion-free one-relator group. If $H < G$ is finitely generated and non-trivial then $b_2(H)\leq b_1(H)−1$.
Here, $b_i(H)$ is the rank of the $i$th homology group of $H$ with coefficients in $\mathbb{Q}$. In particular, if $H$ is non-trivial then $b_1(H)\geq 1$, so the abelianisation of $H$ is infinite and in particular $H$ certainly does not have property (T).
Remarks:
I notice that the hypothesis that $H$ should be non-trivial was accidentally omitted from the paper, and unfortunately this typo made it all the way to the published version!
The main theorem, from which this follows, was proved independently by Helfer--Wise, though I don't think they stated this corollary.
The case of one-relator groups with torsion follows quickly. This paper of Louder and myself explains how to apply the above techniques in that case, and a similar result follows.
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$\begingroup$ In other words, your theorem for torsion-free one-relator groups implies that they are locally indicable, as shown by Brodskii and Howie. $\endgroup$ Mar 19, 2021 at 16:22
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$\begingroup$ @GilesGardam: Of course you’re right — how stupid of me not to spot that this is all I’m saying! I will edit accordingly. (For the record, the more interesting consequence of our work is that $b_2$ is bounded, which rules out many other kinds of subgroups.) Our techniques also show that one-relator groups with torsion are virtually locally indicable. Probably this was already known, but I don’t know a reference. $\endgroup$– HJRWMar 19, 2021 at 17:45
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$\begingroup$ I'd like you to resume the $b_i$ inequality in your answer, it was instructive. $\endgroup$– YCorMar 19, 2021 at 18:33
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$\begingroup$ I concur with @YCor, it's a nice argument that generalises to many other situations. $\endgroup$ Mar 19, 2021 at 21:25
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$\begingroup$ OK, I've reinstated it. Thanks for the encouragement! $\endgroup$– HJRWMar 20, 2021 at 9:55
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Property (T) implies Property FA: every action on a tree has a global fixpoint. The Magnus–Moldavanskii hierarchy expresses every one-relator group as (a subgroup of) an HNN extension of a "simpler" one-relator group (over a free subgroup, but that doesn't matter here). The hierarchy terminates in finitely many steps with a free group or finite cyclic group. Putting this together, any group with (T) that embeds in a one-relator group fixes a vertex of the Bass–Serre tree, so is a subgroup of a simpler one-relator group, and acts on the Bass–Serre tree of that one-relator group, etc until we conclude that, since it can't be a non-trivial subgroup of a free group (infinite abelianization), it must be finite.
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$\begingroup$ We could also reword the statement of the hierarchy to say it terminates in a finite cyclic group or the trivial group, but that would go against tradition! $\endgroup$ Mar 19, 2021 at 16:20