Goulnara Arzhantseva, Romain Tessera
Published 2014-02-06, updated 2016-05-03Version 3
We exhibit a finitely generated group $G$ and a sequence of finite index normal subgroups $N_n\trianglelefteq G$ such that for every finite generating subset $S\subseteq G$, the sequence of finite Cayley graphs $(G/N_n, S)$ does not coarsely embed into any $L^p$-space for $1\leqslant p<\infty$ (moreover, into any uniformly curved Banach space), and yet admits no weakly embedded expander. The reason why our examples do not coarsely embed is a new phenomenon called relative expansion, which we define in terms of Poincar\'e inequalities.
Comments: 24 pages, new title, Theorem 1.3 is new, more details in proofs of Lemma 2.5 and Theorem 7.3, final revised version
Journal: Geometric and Functional Analysis (GAFA), 25 (2015), no. 2, 317-341
Expanders, rank and graphs of groups
A characterisation of large finitely presented groups
Approximating the first $L^2$-betti number of residually finite groups
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