Geometry/Topology Seminar

Winter 2023

Thursdays 3:30-4:30pm, in Ryerson 358

- Thursday January 5 at 3:30PM-4:30PM in Ryerson 358
- Elia Portnoy, MIT
- A Generalized Isoperimetric Inequality via Thick Embeddings of Graphs
- Abstract: We prove a generalized isoperimetric inequality for a domain diffeomorphic to a sphere that replaces filling volume with k-dilation. Suppose U is an open set in Rⁿ diffeomorphic to a Euclidean n-ball. We show that in dimensions at least 4 there is a map from a standard Euclidean ball of radius about vol(d U)^1/(n-1)) to U, with degree 1 on the boundary, and (n-1)-dilation bounded by some constant only depending on n. We also give an example in dimension 3 of an open set where no such map with small (n-1)-dilation can be found.
- Thursday January 12 at 3:30PM-4:30PM in Ryerson 358
- Robert Young, NYU
- Metric differentiation and embeddings of the Heisenberg group
- Abstract: The Heisenberg group is the simplest example of a noncommutative nilpotent Lie group. In this talk, we will explore how that noncommutativity affects geometry and analysis in the Heisenberg group. We will describe why good embeddings of H must be bumpy at many scales, how to study embeddings into L₁ by studying surfaces in H, and how to construct a metric space which embeds into L₁ and L₄ but not in L₂. This talk is joint work with Assaf Naor.
- Thursday January 19 at 3:30PM-4:30PM in Ryerson 358
- Kejia Zhu, UIC
- Relatively geometric actions of complex hyperbolic lattices on CAT(0) cube complexes
- Abstract: We prove that for n ≥ 2, a non-uniform lattice in PU(n,1) does not admit a relatively geometric action on a CAT(0) cube complex, in the sense of Einstein and Groves. As a consequence, we prove that if K is a non-uniform lattice in a non-compact semisimple Lie group G that admits a relatively geometric action on a CAT(0) cube complex, then G is isomorphic to SO(n,1). This work is joint with Corey Bregman.
- Thursday January 26 at 3:30PM-4:30PM in Ryerson 358
- Aaron Messerla, UIC
- Quasi-isometries of relatively hyperbolic groups with an elementary hierarchy
- Abstract: Sela introduced limit groups in his work on the Tarski problem, and showed that each limit group has a cyclic hierarchy. We prove that a class of relatively hyperbolic groups, equipped with a hierarchy similar to the one for limit groups, is closed under quasi-isometry. Additionally, these groups share some of the algebraic properties of limit groups. In this talk I plan to present motivation for and introduce the class of groups studied, as well as present some of the results for this class.
- Thursday February 2 at 3:30PM-4:30PM in Ryerson 358
- Daniel Groves, UIC
- Drilling hyperbolic groups
- Abstract: The notion of "filling" of groups has been very fruitful over recent years. Motivated by questions around the Cannon Conjecture, I will explain how to take a (residually finite) hyperbolic group with a two-sphere boundary and "drill" it to produce a relatively hyperbolic group with two-sphere boundary. This allows us to relate the Cannon Conjecture to the relatively hyperbolic version. This is joint work with Peter Haïssinsky, Jason Manning, Damian Osajda, Alessandro Sisto, and Genevieve Walsh.
- Thursday February 9 at 3:30PM-4:30PM in Ryerson 358
- Grigori Avramidi, MPI Bonn
- Homology growth, hyperbolization, and fibering
- Abstract: In this talk I will describe how a classical conjecture of Hopf about the sign of the Euler characteristic of non-positively curved manifolds leads to the construction of odd, Gromov hyperbolic manifolds that do not virtually fiber over a circle. Joint work with Boris Okun and Kevin Schreve.
- Thursday February 16 at 3:30PM-4:30PM in Ryerson 358
- Jonathan Zung, MIT
- Anosov flows and the pair of pants differential
- Abstract: In this talk, I'll explain how to construct a chain complex associated to a transitive Anosov flow on a 3-manifold. This story parallels the construction of embedded contact homology for Reeb flows. I'll show computations in simple examples and suggest some conjectures.
- Thursday February 23 at 3:30PM-4:30PM in Ryerson 358
- Andy Putman, Notre Dame
- The stable cohomology of the moduli space of curves with level structures
- Abstract: I will give an introduction to the cohomology of the moduli space of curves, and then discuss a recent theorem of mine saying that passing to certain finite covers does not change its stable rational cohomology.
- Thursday March 2 at 3:30PM-4:30PM in Ryerson 358
- Daniel Litt, Toronto
- Mapping class group dynamics via Hodge theory
- Abstract: Let Σ be an orientable surface. Then the mapping class group of Σ acts on the set of conjugacy classes of r-dimensional complex representations of the fundamental group of Σ. The question of classifying finite orbits of this action goes back to work of Painlevé, Fuchs, and Schlesinger in the beginning of the 20th century. We show that if the genus of Σ is at least r², then any representation with finite orbit has finite image, answering questions of Kisin and Whang and resolving conjectures of Esnault-Kerz and Budur-Wang. The proof relies on non-abelian Hodge theory and input from the Langlands program. This is joint work with Aaron Landesman.
- Thursday March 9 at 3:30PM-4:30PM in Eckhart 207A
- James Farre, Heidelberg
- Tight maps to the circle and horocycle orbit closures in Z-covers
- Abstract: The horocycle flow on hyperbolic manifolds has attracted considerable attention in the last century. In the 30's, Hedlund proved that horocycle orbits are dense in closed hyperbolic surfaces. Horocycle orbit closures have been classified for geometrically finite surfaces, as well. Our goal is to understand the topology and dynamics of horocycle orbits in geometrically infinite hyperbolic manifolds, where our understanding is extremely limited. In this talk, I will discuss joint work with Or Landesberg and Yair Minsky, where we give the first complete classification of orbit closures for a class of Z-covers of closed surfaces. I will explain why a complete classification may be difficult to obtain. Our analysis is rooted in a seemingly unrelated geometric optimization problem: finding a best Lipschitz map to the circle. We then relate the topology of horocycle orbit closures with the the dynamics of the minimizing lamination (!) of maximal stretch.

Due to the high number of requests, we are no longer accepting speakers via self-invitations.

For questions, contact

Danny Calegari, dannyc at math.uchicago.edu
Benson Farb, farb at math.uchicago.edu
Shmuel Weinberger, shmuel at math.uchicago.edu

Aaron Calderon, aaroncalderon at uchicago.edu
Justin Lanier, jlanier8 at uchicago.edu
Ben Lowe, loweb24 at uchicago.edu
Sahana Vasudevan, sahanav at uchicago dot edu