Seminar meets Tuesdays at 4:30 in BP 101 in the Tufts Math Department. You can subscribe to the GGTT mailing list here. In Fall 2018, the seminar organizers are Robert Kropholler, Kim Ruane and Genevieve Walsh.


Date Name Title
Sep 11 Oliver Wang Cohomology of relatively hyperbolic groups
Abstract: Bestvina and Mess have shown that the group cohomology of a hyperbolic group is isomorphic to the Cech cohomology of the group’s boundary. To achieve this, they show that both cohomology groups are isomorphic to the compactly supported cohomology of the Rips complex. I will discuss recent work with Jason Manning, in which the cohomology of a relatively hyperbolic group pair is shown to be isomorphic to the Cech cohomology of the Bowditch
boundary. If there is time, I will also discuss some corollaries.
Sep 18 Peter Kropholler Amenability and rank conditions on group rings
Abstract: We’ll explain how Bartholdi and Kielak’s work on cellular automata can be used to show that the integral group ring of a group G satisfies the strong rank condition if and only if G is amenable. This in turn can be used to prove a conjecture of Wolfgang Lueck on dimension flatness for L^2 cohomology. In addition, the results imply that the group ring \mathbb{Z}G can be Noetherian only if the group is amenable with max on subgroups. At present the only known such groups are polycyclic by finite.
Sep 25 Siddhi Krishna Taut Foliations, Positive 3-Braids, and the L-Space Conjecture
Abstract: The L-Space Conjecture is taking the low-dimensional topology community by storm. It aims to relate seemingly distinct Floer homological, algebraic, and geometric properties of a closed 3-manifold Y. In particular, it predicts a 3-manifold Y isn’t “simple” from the perspective of Heegaard-Floer homology if and only if Y admits a taut foliation. The reverse implication was proved by Ozsvath and Szabo. In this talk, we’ll present a new theorem supporting the forward implication. Namely, we’ll discuss how to build taut foliations for manifolds obtained by surgery on positive 3-braid closures. No background in Heegaard-Floer or foliation theories will be assumed.
Oct 2 James Farre Infinite volume and bounded cohomology
Abstract: To a hyperbolic 3-manifold M, we associate the class in cohomology that computes the volume of geodesic tetrahedra in M. We will be interested in the setting that M has infinite volume, so this cohomology class is necessarily zero. To circumvent this shortcoming, we introduce bounded cohomology. As we vary the hyperbolic structure on the underlying manifold, we get potentially different bounded volume classes, and the goal of this talk will be to explain how these bounded classes change as the quasi-isometry type of the hyperbolic structure changes. Along the way, we will contemplate the classification of Kleinian groups by their end invariants and explore some interesting (bizarre) properties of bounded cohomology.
Oct 9 No Seminar No Seminar
Oct 16 at 3pm Daniel Woodhouse Revisiting Leighton’s graph covering theorem
Abstract: Leighton’s graph covering theorem states that two finite graphs with isomorphic universal covers have isomorphic finite covers. I will discuss a new proof that involves using the Haar measure to solve a set of gluing equations. I will discuss generalizations to graphs with fins, and applications to quasi-isometric rigidity.
Oct 16 at 4:30pm Emily Stark Cannon–Thurston maps in non-positive curvature
Abstract: Two far-reaching methods for studying the geometry of a finitely generated group with non-positive curvature are (1) to study the structure of the boundaries of the group, and (2) to study the structure of its finitely generated subgroups. Cannon–Thurston maps, named after foundational work of Cannon and Thurston in the setting of fibered hyperbolic 3-manifolds, allow one to combine these approaches. Mitra (Mj) generalized work of Cannon and Thurston to prove the existence of Cannon–Thurston maps for normal hyperbolic subgroups of a hyperbolic group. Such Cannon–Thurston maps can be used to obtain structure on the boundary of certain hyperbolic groups. I will explain why similar theorems fail for certain CAT(0) groups. This is joint work with Beeker–Cordes–Gardham–Gupta.
Oct 23 TBA
Abstract: TBA
Oct 30 Thomas Koberda TBA
Abstract: TBA
Nov 6 Yulan Qing TBA
Abstract: TBA
Nov 13 TBA
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Nov 20 Valentina Disarlo TBA
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Nov 27 TBA
Abstract: TBA
Dec 4 TBA
Dec 11 Jen Taback and Rob Kropholler TBA