Low Dimensional Actions

Europe/Paris
Amphithéâtre Hermite / Darboux (Institut Henri Poincaré)

Amphithéâtre Hermite / Darboux

Institut Henri Poincaré

11 rue Pierre et Marie Curie 75005 Paris
Description

Group Actions and Rigidity: Around the Zimmer Program

Workshop: Low Dimensional Actions 

Monday, April 29 to Saturday, May 4, 2024 - IHP, Paris

This workshop brings together researchers working in rigidity, regularity, and the moduli spaces of groups acting on low dimensional manifolds.  This area has rich connections with the Zimmer program as well as with orderable groups, foliation theory, and three manifolds.  Many challenging problems regarding actions on high dimensional manifolds become more tractable in the low dimensional setting, which can then inform approaches in higher dimensions.
The focus will be on problems related to the generalized Zimmer program, either in theme such as rigidity of lattices and other geometric/algebraic examples, or in methods, such as Furstenburg boundaries, measure rigidity and random dynamics, hyperbolicity, and questions of regularity. 

Mini-courses:

  • Kathryn Mann (Cornell University)
  • Emmanuel Militon (Université Côte d'Azur)

Confirmed speakers:

  • Camilo Arosemena Serrato (Rice University)
  • Thomas Barthelmé (Queen's University)
  • Jonathan Bowden (Universität Regensburg)
  • Aaron Brown (Northwestern University)
  • Joaquin Brum (Universidad de la República de Uruguay)
  • Filippo Calderoni (Rutgers University)
  • Lvzhou Chen (Purdue University)
  • Hélène Eynard-Bontemps (Université Grenoble Alpes)
  • Sebastian Hurtado (Yale University)
  • KyeongRo Kim (Seoul National University)
  • Sang-Hyun Kim (KIAS) 
  • Victor Kleptsyn (Université de Rennes)
  • Frédéric Le Roux (Sorbonne Université)
  • Isabelle Liousse (Université de Lille)
  • Yash Lodha (University of Hawaii at Manoa)
  • Kathryn Mann (Cornell University)
  • Emmanuel Militon (Université Côte d'Azur)
  • Andrés Navas (Universidad de Santiago de Chile)
  • Michele Triestino (Université de Bourgogne)
  • Maxime Wolff (Université Toulouse III - Paul-Sabatier)

Organising committe:

  • David Fisher (Rice University)
  • Sebastian Hensel (University of Munich)
  • Kathryn Mann (Cornell University)
  • Cristobal Rivas (Universidad de Chile)
  • Michele Triestino (Université de Bourgogne)

 

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Registration
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Contact
    • 1
      Registration/ Welcome coffee
    • 9:20 AM
      Opening by Dominique Mouhanna, IHP Deputy Director
    • 2
      First order rigidity of manifold homeomorphism groups

      Two groups are elementarily equivalent if they have the same sets of true first order group theoretic sentences. We prove that if the homeomorphism groups of two compact connected manifolds are elementarily equivalent, then the manifolds are homeomorphic. This generalizes Whittaker’s theorem on isomorphic homeomorphism groups (1963) without relying on it. We also establish the analogous result for volume-preserving subgroups. Joint work with Thomas Koberda (UVa) and Javier de la Nuez-Gonzalez (KIAS).

      Speaker: Sanghyun Kim
    • 10:30 AM
      Coffee break
    • 3
      Minicourse: big mapping class groups

      This course will introduce mapping class groups of surfaces of infinite types, and present a perspective due to Calegari, that we might use these to study groups acting on (finite type) surfaces.

      Speaker: Kathryn Mann
    • 12:00 PM
      Lunch break
    • 4
      Free IET-Actions

      Hölder's theorem states that a group acting freely by circle homeomorphisms is isomorphic and semi-conjugate to a subgroup of rotations.
      In this talk, I will discuss an analogous result, obtained with Nancy Guelman, for groups of interval exchange transformations.

      Speaker: Isabelle Liousse
    • 5
      On the geometry of diffeomorphisms groups in dimension 1

      In this talk I will discuss some geometric properties of diffeomorphisms groups that are hard to tackle via classical methods because of the lack of local compactness. In particular, I will elaborate on Gromov's notion of distortion in this context. I will mostly concentrate in the case of 1-manifolds, which is surprisingly rich and hard to tackle.

      Speaker: Andres Navas
    • 4:00 PM
      Coffee break
    • 6
      Rigidity of big mapping class groups acting on the circle

      Surfaces of infinite type, such as the plane minus a Cantor set, occur naturally in dynamics. However, their mapping class groups are much less understood compared to the mapping class groups of surfaces of finite type. For the mapping class group G of the plane minus a Cantor set, we show that any nontrivial G-action on the circle is semi-conjugate to its action on the so-called simple circle. I will also explain what happens in the more general situation where we replace the plane by a once-punctured surface of finite genus. This is mostly based on joint work with Danny Calegari.

      Speaker: Lvzhou Chen
    • 7
      Groups with full limit set vs Lattices

      Based on work in progress with Subhadip Dey.

      We discuss the question whether a discrete subgroup in a Lie group of higher rank with full limit set in its boundary is necessarily a lattice. We find some necessary conditions for this to be true and discuss some new and old results pointing towards an affirmative answer. Hopefully, we will also relate this discussion to questions about groups acting by diffeomorphisms in low dimensions.

      Speaker: Sebastian Hurtado
    • 10:30 AM
      Coffee break
    • 8
      Minicourse: big mapping class groups and dynamics
      Speaker: Kathryn Mann
    • 12:00 PM
      Group photo
    • 12:10 PM
      Lunch break
    • 9
      Homeomorphism groups of the Airplane and the Basilica Julia sets

      The airplane and the Basilica Julia sets are two compact fractal sets that appear in different parts of group theory. In this talk, we will be interested in their full homeomorphism groups. We will show that these groups can be identified with a specific universal Burger-Mozes group (this was proved by Y. Neretin for the Basilica) and a specific kaleidoscopic group for the Airplane. Kaleidoscopic groups are analogues of Burger-Mozes universal groups where trees are replaced by dendrites.

      These identifications will be explained and we will exploit them to prove topological and dynamical properties of these topological groups.

      This is a joint work in progress with Matteo Tarocchi.

      Speaker: Bruno Duchesne
    • 10
      Deformations of Z^2-actions in dimension 1 (joint with Andrés Navas)

      Can any pair of commuting diffeomorphisms of a compact 1D manifold be connected to the trivial pair (id,id) via a path of such pairs ? This question plays an important role in the classification of foliations of 3-manifolds by surfaces. It can be asked in any differentiability class, and we will see that the phenomena at play and the techniques involved to answer it highly depend on the regularity, focussing on a new result in the intermediate regularity C^{1+ac} (where « ac » stands for « absolutely continuous).

      Speaker: Hélène Eynard-Bontemps
    • 4:00 PM
      Coffee break
    • 11
      Around the fine curve graph of the torus

      Lan, Margalit, Pham, Verbene and Yao showed in 2021 that the group of automorphisms of the fine curve graph of a surface of genus at least 2 identifies with the group of homeomorphisms of the surface. With Maxime Wolff, we generalise this result to any surface, and describe the smooth version. The torus case is of special interest since recent work by Bowden, Hansel, Militon, Man, and Webb (generalised by Guihéneuf and Militon) suggests the possibility of a rich dictionary between the fine graph and the dynamical properties of torus homeomorphisms, especially the famous rotation set.

      Speaker: Frédéric Le Roux
    • 6:00 PM
      Cocktail dinner party
    • 9:30 AM
      International Workers Day - Public holiday - IHP is closed
    • 12
      Spaces of left-orderings and their Borel complexity

      In this talk we will discuss the problem of determining the Borel complexity of the space of left-orders LO(G) of a countable left-orderable group G modulo the conjugacy G-action. We will see how this problem is connected to some well-studied topological properties of LO(G) such as the existence of dense orbits, and condensed orders. We will give an overview of our results showing that certain groups have nonstandard orbit space LO(G)/G. Time permitting, we will list open problems and discuss future directions.

      Most of the results presented are joint work with Adam Clay.

      Speaker: Filippo Calderoni
    • 10:30 AM
      Coffee break
    • 13
      Minicourse: Dynamics of homeomorphisms of surfaces and fine curve graph

      The fine curve graph of a closed surface is a Gromov hyperbolic graph on which the group of homeomorphisms of the surface acts faithfully by isometry. In this mini-course, we will explore the links between the dynamics of a homeomorphism of the surface and the isometry type of its action on the fine curve graph. The first talk will be devoted to a dynamical characterization of homeomorphisms which act hyperbolically on the fine curve graph.
      During the second talk, we will see examples of homeomorphisms which act parabolically on the fine curve graph and some results about them.

      This is joint work with Jonathan Bowden, Sebastian Hensel, Kathryn Mann and Richard Webb for one aspect, and with Pierre-Antoine Guihéneuf for another.

      Speaker: Emmanuel Militon
    • 12:00 PM
      Lunch break
    • 14
      The group of germs at infinity of homeomorphisms of the real line has no outer automorphisms

      In joint work with Frédéric Le Roux and Kathryn Mann, we
      prove that every automorphism of the group of germs at infinity
      of homeomorphisms of the real line is given by the conjugation by
      some homeomorphism of the line.

      Speaker: Maxime Wolff
    • 15
      Bifoliated planes, Anosov-like actions and rigidity

      A bifoliated plane is a topological plane equipped with two transverse (possibly singular) foliations. Given a group G, an Anosov-like action is an action of G on a bifoliated plane satisfying a few axioms, first among them is the fact that each point in the plane fixed by an element of the group is a hyperbolic fixed point.
      Such actions were first introduced as an axiomatization, and generalization, of the natural action induced by a 3-dimensional (pseudo)-Anosov flow on its orbit space. It turns out that a lot of the dynamical behaviors that we see in Anosov flows also appears in this context. In this talk I will describe some of these features, such as recovering basic sets and the Smale order for non-transitive Anosov-like actions, as well as prove a rigidity result: An Anosov-like action is uniquely determined by its induced action on the circle at infinity of the bifoliated plane.
      This is joint work with Christian Bonatti and Kathryn Mann.

      Speaker: Thomas Barthelmé
    • 4:00 PM
      Coffee break
    • 16
      Laminar groups and Kleinian groups

      Thurston showed the universal circle theorem as a first step of the proof of the geometrization conjecture of tautly foliated three manifolds. The theorem says that the fundamental group of a closed three manifold slithering over the circle acts on the circle preserving a pair of laminations. In this talk, I talk about the converse of the universal circle theorem in terms of laminar groups. Also, I will overview recent results about the laminar groups and discuss related open problems. This talk is based on works with Harry Hyungryul Baik and Hongtaek Jung.

      Speaker: KyeongRo Kim
    • 17
      Towards the boundary of the fine curve graph

      The fine curve graph was introduced as a geometric tool to homeomorphism groups of surfaces. One then wishes to establish a dictionary between the underlying surface dynamics and the action of elements on the fine curve graph. For this it is key to have a geometric interpretation of points on the Gromov boundary in analogy to Klarreich’s description for classical curve graphs. We describe first steps in this regard with applications to stable commutator lengths and a kind of Tits alternative for subgroups containing pseudo-Anosov diffeomorphisms. (joint with S. Hensel and R. Webb)

      Speaker: Jonathan Bowden
    • 10:30 AM
      Coffee break
    • 18
      Minicourse: Dynamics of homeomorphisms of surfaces and fine curve graph
      Speaker: Emmanuel Militon
    • 12:00 PM
      Lunch break
    • 19
      Rigidity of Codimension One Higher Rank Actions

      We classify all closed manifolds admitting a smooth locally free action by a higher rank split simple Lie group with codimension 1 orbits. Namely, if a closed manifold M admits such an action by a Lie group G as above, M is finitely and equivariantly covered by G/Gamma x S^1, for some cocompact lattice Gamma of G, where G acts by left translations on the first factor, and trivially on S^1. This result is in the spirit of the Zimmer program. We will focus on the case G = SL(3,R) for the talk.

      Speaker: Camilo Arosemena
    • 20
      Laminations and structure theorems for group actions on the line (1)

      A lamination of the real line is a closed collection of pairwise unlinked, finite intervals. They appear naturally when studying certain classes of group actions on the line. More precisely, we will discuss actions of solvable groups, and of locally moving groups (these are subgroups of Homeo(R) such that for any open interval I, the subgroups of elements fixing the complement of I acts minimally on I). A famous example of a locally moving group is Thompson's group F. Both classes admit "standard models" of actions on the line: solvable groups act by affine transformations, whereas locally moving groups have their defining actions. We prove a structure theorem which says that any minimal faithful action of a finitely generated group in this class is either standard, or preserves a lamination. Moreover, the large scale dynamics of actions preserving laminations can be described in terms of the standard actions. This has a couple of notable applications: 1) every C1 action is actually semi-conjugate to a standard action; 2) under suitable algebraic restrictions on the group, standard actions are locally rigid. This is based on works with N. Matte Bon and C. Rivas.

      Speaker: Michele Triestino
    • 4:00 PM
      Coffee break
    • 21
      Laminations and structure theorems for group actions on the line (2)

      A lamination of the real line is a closed collection of pairwise unlinked, finite intervals. They appear naturally when studying certain classes of group actions on the line. More precisely, we will discuss actions of solvable groups, and of locally moving groups (these are subgroups of Homeo(R) such that for any open interval I, the subgroups of elements fixing the complement of I acts minimally on I). A famous example of a locally moving group is Thompson's group F. Both classes admit "standard models" of actions on the line: solvable groups act by affine transformations, whereas locally moving groups have their defining actions. We prove a structure theorem which says that any minimal faithful action of a finitely generated group in this class is either standard, or preserves a lamination. Moreover, the large scale dynamics of actions preserving laminations can be described in terms of the standard actions. This has a couple of notable applications: 1) every C1 action is actually semi-conjugate to a standard action; 2) under suitable algebraic restrictions on the group, standard actions are locally rigid. This is based on works with N. Matte Bon and C. Rivas.

      Speaker: Joaquin Brum
    • 22
      Stationary measures for groups acting on surfaces

      For a group acting on a surface, one may want to classify orbit closures or invariant/stationary measures. I’ll discuss an older result of myself and Rodriguez-Hertz—adapting the exponential drift methods of Benoit-Quint and Eskin-Mirzakhani—to classify stationary measures under certain dynamical hypotheses on the action. I’ll also discuss more recent related works, work in progress, and open questions.

      Speaker: Aaron Brown
    • 10:30 AM
      Coffee break
    • 23
      Critical regularity for nilpotent group actions in dimension one

      My talk will follow a joint work with Maximiliano Escayola, devoted
      to the study of critical regularities for nilpotent group actions.
      The questions of critical regularities have been studied
      by many authors in many different contexts: starting from the
      classical Denjoy theorem and example, there are works by M. Herman, J.-C. Yoccoz,
      N. Kopell, B. Deroin, A. Navas, C. Rivas, E. Jorquera, Kim, T. Koberda, any many others.
      We’ll be describing the critical regularity in algebraic terms, introducing some new
      technique for establishing the bounds.

      Speaker: Victor Kleptsyn
    • 12:00 PM
      IHP is closed after 13:00