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We address the question of determining which mapping class groups of infinite-type surfaces admit nonelementary continuous actions on hyperbolic spaces.
More precisely, let
$\Sigma $
be a connected, orientable surface of infinite type with tame endspace whose mapping class group is generated by a coarsely bounded subset. We prove that
${\mathrm {Map}}(\Sigma )$
admits a continuous nonelementary action on a hyperbolic space if and only if
$\Sigma $
contains a finite-type subsurface which intersects all its homeomorphic translates.
When
$\Sigma $
contains such a nondisplaceable subsurface K of finite type, the hyperbolic space we build is constructed from the curve graphs of K and its homeomorphic translates via a construction of Bestvina, Bromberg and Fujiwara. Our construction has several applications: first, the second bounded cohomology of
${\mathrm {Map}}(\Sigma )$
contains an embedded
$\ell ^1$
; second, using work of Dahmani, Guirardel and Osin, we deduce that
${\mathrm {Map}} (\Sigma )$
contains nontrivial normal free subgroups (while it does not if
$\Sigma $
has no nondisplaceable subsurface of finite type), has uncountably many quotients and is SQ-universal.
An automorphism of a graph product of groups is conjugating if it sends each factor to a conjugate of a factor (possibly different). In this article, we determine precisely when the group of conjugating automorphisms of a graph product satisfies Kazhdan’s property (T) and when it satisfies some vastness properties including SQ-universality.
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