From Subfactors to Quantum Topology - In memory of Vaughan Jones

Europe/Zurich
University of Geneva

University of Geneva

Uni Dufour (Auditorium U300 - Charles Rouillier) Rue Général-Dufour 24 Geneva, Geneva 1205 Switzerland
Description

 

                                     

Eminent mathematician and Fields Medal winner in 1990, Vaughan Jones was particularly attached to the University of Geneva where he had studied physics before obtaining his doctorate in mathematics in 1979, under the supervision of Prof. André Haefliger.

His research work but also his enthusiasm and generosity have deeply marked all those who had a chance to work with him and who wish to pay him a vibrant tribute through this conference in his memory.

Videos of the talks

 

*The conference is partially supported by the National Science Foundation through the grant number DMS-2208246

 

 

    • 10:00 11:00
      Zeta cycles and the scaling site 1h
      Speaker: Alain Connes
    • 11:00 11:30
      Coffee Break 30m
    • 11:30 12:30
      Planar algebras, noncommutativity and hyperfinite subfactors 1h

      The hyperfinite II_1 factor contains a wealth of subfactors that give rise to many new and fascinating mathematical structures.
      Vaughan Jones discovered that the unitary tensor category generated by the standard representation of a subfactor has a planar structure and can be described as what he called a planar algebra''. It is a complete invariant for amenable subfactors by a deep result of Popa. However, generic subfactors are not amenable, and one typically does not know how to distinguish them. I will discuss a notion of asymptotic noncommutativity that can be used to distinguish subfactors with the same planar algebra invariant. I will constructvery noncommutative'' examples from actions of suitable groups on the hyperfinite II$_1$ factor. Moreover, planar algebra techniques lead to new subfactors with Temperley-Lieb-Jones planar algebra.

      Speaker: Dietmar Bisch
    • 14:30 15:30
      The search for the exotic in Subfactors and Conformal Field Theory 1h

      Groups can act as symmetries of physical systems and on their mathematical models as in conformal field theory.
      Vaughan's subfactor theory provides a framework for quantum symmetries beyond those arising from groups or their deformations as quantum groups or loop groups. The accepted position was that the Haagerup system, associated with the a subfactor at index $(5+ \sqrt(13))/2$, was exotic and surely could not be constructed from group like symmetries. I discuss work with Terry Gannon that this should be considered as misconception and the more general issue of constructing conformal field theories from subfactors and their associated modular tensor categories.

      Speaker: David Evans
    • 15:30 16:00
      Coffee Break 30m
    • 16:00 17:30
      *: Music show by friends of Vaughan
    • 17:30 20:00
      Cocktail Reception 2h 30m
    • 09:30 10:30
      From Jones relation to representations of Mapping Class Groups 1h

      We will review fundamental contributions of Vaughan Jones in the genesis of Quantum Topology. Then we will focus on representations of Mapping Class Groups highlighting a contribution of Vaughan Jones in genus 2. We will finally discuss homological models producing new representations.

      Speaker: Christian Blanchet
    • 10:30 11:00
      Coffee Break 30m
    • 11:00 12:00
      Skein algebra of a punctured surface 1h

      In the case of a closed surface, there is a rich body of work describing how the Kauffman bracket skein algebra can be regarded as a quantization of Teichmuller space. In order to generalize to a surface with punctures, Roger and Yang defined a skein algebra with extra generators and relations that they conjectured to be a quantization of Penner's decorated Teichmuller space. In joint work with Han-Bom Moon, we resolve their conjecture by appealing to another algebra closely related to the decorated Teichmuller space, a cluster algebra for punctured surfaces first defined by Fomin, Shapiro, and Thurston.

      Speaker: Helen Wong
    • 13:30 14:30
      Cars, Interchanges, Traffic Counters, and a Pretty Darned Good Knot Invariant 1h

      Reporting on joint work with Roland van der Veen, I'll tell you some stories about ρ1, an easy to define, strong, fast to compute, homomorphic, and well-connected knot invariant. ρ1 was first studied by Rozansky and Overbay, it is dominated by the coloured Jones polynomial (but it isn't lesser!), it has far-reaching generalizations, and I wish I understood it.

      drorbn.net

      Speaker: Dror Bar-Natan
    • 14:30 15:00
      Coffee Break 30m
    • 15:00 16:00
      Skein modules for generic quantum parameters” 1h

      Skein modules were defined by Przytycki and Turaev as a way to generalize the Jones polynomial and the Kauffman bracket to links in manifolds other than the 3-sphere. In this talk I will review some recent structural results, such as the fact that the skein module of a closed 3-manifold is finite-dimensional for generic quantum parameters. I will also describe a work in progress joint with Gunningham which relates skein modules for generic quantum parameters to the cohomology of a certain perverse sheaf on the character stack of the 3-manifold. This allows one to generalize skein modules to finite 3-dimensional Poincare complexes and compute them for those with a finite fundamental group.

      Speaker: Pavel Safronov
    • 09:30 10:30
      The cell dispensibility problem for spaces and manifolds 1h

      We consider the following problem: when is a CW-space X homotopy equivalent to a CW-complex without j-cells for k<j<r ?
      We show that this is equivalent to some cohomology condition together with the vanishing of an algebraic K-theory "cell-dispensability obstruction", analogous but not equal to the Wall finiteness obstruction. A similar theory holds for closed manifolds, replacing cells'' byhandles''.

      Speaker: Jean-Claude Hausmann
    • 10:30 11:00
      Coffee Break 30m
    • 11:00 12:00
      Knot my problem: looking for rigidity in group theory 1h
      Speaker: Martin Bridson
    • 12:30 16:30
      *: Salève hike “as Vaughan liked it”
    • 09:30 10:30
      On skein theory in dimension four 1h

      The Temperley-Lieb algebra describes the local behaviour of the Jones polynomial and gives rise to the Kauffman bracket skein modules of 3-manifolds. Going up by one dimension, Bar-Natan's dotted cobordisms describe the local behaviour of Khovanov homology and, likewise, give rise to skein modules of 4-manifolds. I will describe the construction of these skein modules and methods to compute them via a handle decomposition. Based on joint work with Morrison-Walker, Manolescu-Walker, and Hogancamp-Rose.

      Speaker: Paul Wedrich
    • 10:30 11:00
      Coffee Break 30m
    • 11:00 12:00
      4-manifolds with boundary and fundamental group Z 1h

      In this talk I will discuss a classification of topological 4-manifolds with boundary and fundamental group Z, under some mild assumptions on the boundary. I will apply this classification classify surfaces in simply-connected 4-manifolds with 3-sphere boundary, where the fundamental group on the surface complement is Z. I will also compare these homeomorphism classifications with the smooth setting, showing for example that every appropriate form can be realized as the equivariant intersection form of a pair of exotic smooth 4-manifolds with boundary and fundamental group Z, and that every smooth 2-handlebody with 3-sphere boundary contains a pair of exotic surfaces. This is joint work with Anthony Conway and Mark Powell.

      Speaker: Lisa Piccirillo
    • 14:30 15:00
      Coffee Break 30m
    • 15:00 16:00
      Braids, Dualities and more subfactors 1h

      {Abstract:}\textit{The famous Schur-Weyl duality states that the commutant of the action of
      $Gl(V)$ on $V^{\otimes n}$ is generated by the obvious action of the symmetric group $S_n$
      on $V^{\otimes n}$. We will first give a survey of quantum groups $U_q{\mathfrak g}$ and representations $V$,
      where the commutant of the action of $U_q{\mathfrak g}$ on $V^{\otimes n}$ is (almost) generated by the braid group $B_n$.
      In the case of spin representations of $U_q{{\mathfrak s}{\mathfrak o}}_N$, these braid representations are best described
      in the context of another $q$-deformation $U'_q{{\mathfrak s}{\mathfrak o}}_n$ of $U{{\mathfrak s}{\mathfrak o}}_n$.
      This $q$-deformation can be embedded into $U_q{\mathfrak sl}_n$ as a coideal subalgebra. It can also be used
      to construct more examples of subfactors which correspond to the embedding $SO(n)\subset SU(n)$
      in the classical limit $q\to 1$.}

      Speaker: Hans Wenzl
    • 09:30 10:30
      Facets of Temperley-Lieb algebra” 10:30-11:00 Coffee Break 1h

      Skein modules were defined by Przytycki and Turaev as a way to generalize the Jones polynomial and the Kauffman bracket to links in manifolds other than the 3-sphere. In this talk I will review some recent structural results, such as the fact that the skein module of a closed 3-manifold is finite-dimensional for generic quantum parameters. I will also describe a work in progress joint with Gunningham which relates skein modules for generic quantum parameters to the cohomology of a certain perverse sheaf on the character stack of the 3-manifold. This allows one to generalize skein modules to finite 3-dimensional Poincare complexes and compute them for those with a finite fundamental group.

      Speaker: Mikhail Khovanov
    • 10:30 11:00
      Coffee Break 30m
    • 11:00 12:00
      Lattice models arising from non-semisimple TQFT 1h

      There is a rich interplay between two-dimensional topological phases in quantum mechanical systems and topological quantum field theory. This interaction is further enriched as topological structures inherent in TQFT lead to novel features, such as non-abelian braiding statistics for low energy excitations, when expressed in the corresponding quantum mechanical models. In this talk, we will review the relationship between Turaev-Viro TQFTs and Levin-Wen string net models for topological matter. We will explain new joint work with Geer, Patureau-Mirand, and Sussan extending this relationship to modified Turaev-Viro theories coming from non-semisimple TQFT. These new non-semisimple Levin-Wen models exhibit a novel feature of being pseudo-Hermitian, so that they have real spectrum, evolve via the Schrodinger equation, and have normalizable wavefunction, but are not given by Hermitian Hamiltonians.

      Speaker: Aaron Lauda