Subfactor Seminar – Fall 2006


Subfactor Seminar

Fall 2006


Organizer: Dietmar Bisch

Mondays, 4:10-5:30pm in SC 1310


  • Date: 8/28/06
    • Speaker: Dietmar Bisch, Vanderbilt University
    • Title: Introduction to II1 factors and subfactors
    • Abstract: I will give an introduction to von Neumann
      algebras and the theory of subfactors. This meeting serves also
      as organizational meeting for the Subfactor Seminar.
  • Date: 9/4/06
    • Speaker: Shamindra Ghosh, Vanderbilt University
    • Title: Introduction to planar algebras I
    • Abstract: We define planar algebras, give some
      examples and explain how they are related to subfactors.
  • Date: 9/11/06
    • Speaker: Pinhas Grossman, Vanderbilt University
    • Title: Introduction to planar algebras II
    • Abstract: We continue the introduction to Jones’ planar
      algebra formalism from last week. We will present several
      examples of planar algebras.
  • Date: 9/18/06
    • Speaker: Remus Nicoara, Vanderbilt University
    • Title: Group von Neumann algebras, crossed products
      and property T
    • Abstract: This lecture will be an introductory lecture covering
      some of the background material needed for Stefaan Vaes’ lecture series.

  • Date: 9/22/06 (Friday), Special Subfactor Seminar,
    Lecture Series by Stefaan Vaes, Lecture I at 3:10pm in SC 1310

    • Speaker: Stefaan Vaes, Katholieke Universiteit Leuven and CNRS Paris
    • Title: Deformation and rigidity results for crossed product
      II1 factors I
    • Abstract:
      I will present an introduction to recent work of Popa on Bernoulli
      actions of property (T) groups. The main goal is to present the proof of
      Popa’s strong rigidity theorem: the II1 factors given by the
      Bernoulli action of an ICC property (T) group essentially remember the
      group and the action.

      Lecture 1. I will explain how unitary conjugacy of subalgebras
      of a II1 factor can be shown using bimodules.

      Lecture 2. A strong deformation property of Bernoulli actions, called
      malleability, is played against property (T) to approach the strong
      rigidity theorem.

      Lecture 3. The strong rigidity theorem is shown. I will also discuss
      how the techniques of the first two lectures are used in my recent
      joint work with Popa, yielding a lot of explicit computations of outer
      automorphism groups of II1 factors.

  • Date: 9/25/06
    • Speaker: Stefaan Vaes, Katholieke Universiteit Leuven and CNRS Paris
    • Title: Deformation and rigidity results for crossed product
      II1 factors II

  • Date: 9/26/06 (Tuesday), Special Subfactor
    Seminar, 4:10pm in SC 1432

    • Speaker: Stefaan Vaes, Katholieke Universiteit Leuven and CNRS Paris
    • Title: Deformation and rigidity results for crossed product
      II1 factors III

  • Date: 9/27/06 (Wednesday), Topology & Group Theory
    Seminar, Lecture Series by Andreas Thom, Lecture I at 4:10pm in SC 1310

    • Speaker: Andreas Thom, University of Goettingen
    • Title: L2-invariants for groups and von Neumann algebras
    • Abstract:
      In recent work, Connes and Shlyakhtenko have defined
      L2-invariants for tracial algebras, generalizing
      L2-invariants for groups
      due to Atiyah-cheeger-Gromov. The study of these L2-invariants
      combines nicely analytic and homological methods. In this talk, we will
      introduce the subject and give an account of the known results and
      open questions that area.

  • Date: 9/28/06 (Thursday), RTG Seminar,
    1:10pm in SC 1310

    • Speaker: Andreas Thom, University of Goettingen
    • Title: L2-invariants for groups and von Neumann
      algebras II

  • Date: 10/3/06 (Tuesday), NCG Seminar,
    4:10pm in SC 1432

    • Speaker: Andreas Thom, University of Goettingen
    • Title: L2-invariants for groups and von Neumann algebras IV
  • Date: 10/9/06
    • Speaker: Jesse Peterson, UC Berkeley
    • Title: Deformation/Rigidity Techniques in von Neumann Algebras
    • Abstract:
      I will discuss the deformation/rigidity techniques introduced
      by Sorin Popa. These techniques have led to a number of remarkable
      rigidity type results both in von Neumann Algebras as well as Orbit
      Equivalence Ergodic Theory. I will highlight some of these results while
      paying special attention to applications with (amalgamated) free products
      of von Neumann algebras.
  • Date: 10/16/06
    • no meeting, fall break
  • Date: 10/23/06
    • Speaker: Adrian Ioana, UCLA
    • Title: Orbit inequivalent actions for groups containing a copy of F2
    • Abstract: I will prove that if a group H admits a rigid action (e.g.
      H=F2), then any group G containing a copy of H has uncountably many non
      orbit equivalent actions.
  • Date: 10/30/06
    • Speaker: Ali Chamseddine, American University of Beirut
    • Title: Computational Methods in the Spectral Action Principle I
    • Abstract:
      In Einstein’s general theory of relativity the gravitational field is
      geometrical where the symmetry is diffeomorphism invariance and the dynamics
      is formulated in terms of the fluctuations of the metric. In noncommutative
      geometry diffeomorphism invariance is replaced with the spectral action
      principle which states that “The physical action depends only on the
      spectrum”. I review properties of noncommutative geometric spaces based on
      real spectral triples and explain the computational tools needed in the
      applications of this principle. As an example I will derive the inner
      fluctuations of the Dirac operator and show that for dimensions less than or
      equal to four one gets the sum of a Yang-Mills action and a Chern-Simons
      action.

  • Date: 10/31/06 (Tuesday), NCG Seminar,
    4:10pm in SC 1432

    • Speaker: Ali Chamseddine, American University of Beirut
    • Title: Computational Methods in the Spectral Action Principle II

  • Date: 11/2/06 (Thursday), Mathematics & Physics
    Colloquium, 4:00-5:00pm in SC 4327
    • Speaker: Ali Chamseddine, American University of Beirut
    • Title: Hidden Noncommutative Geometric Structure of Space-Time
    • Abstract:
      The geometry of space-time is reconstructed from the low-energy spectrum
      defined by the quarks and leptons. I show that there is a hidden
      noncommutative structure and that the dynamics of the unified geometrical
      theory is governed by the “Spectral Action Principle”.
  • Date: 11/6/06
    • Speaker: Pinhas Grossman, Vanderbilt University
    • Title: Indices and angles for supertransitive intermediate
      subfactors
  • Date: 11/13/06
    • Speaker: Akram Aldroubi, Vanderbilt University
    • Title: Slanted matrices, Banach frames, Wiener’s lemmas and
      inverse problems
    • Abstract: Click here for the abstract.
  • Date: 11/20/06
    • no meeting, Thanksgiving break
  • Date: 11/27/06
    • Speaker: Remus Nicoara, Vanderbilt University
    • Title: Subfactors and Hadamard Matrices
    • Abstract:
      To any complex Hadamard matrix H one associates a
      hyperfinite subfactor. The standard invariant of this subfactor
      captures certain symmetries of H. We present several classification
      results for Hadamard matrices and discuss some properties of the
      associated subfactors.
  • Date: 11/30/06 (Thursday), Mathematics Colloquium, 4:10-5:00pm in SC 5211
    • Speaker: Sorin Popa, UCLA
    • Title: On the superrigidity
      of malleable actions
    • Abstract:
      I will present a series of results showing that measure preserving
      actions $\Gamma\curvearrowright X$ of countable non-amenable groups
      $\Gamma$ on a probability space $X$ that satisfy certain {\it
      malleability} and mixing conditions have very sharp rigidity
      properties. For instance, any cocycle for $\Gamma \curvearrowright
      X$ with values in a discrete group can be untwisted on the
      normalizer of any subgroup $H\subset \Gamma$ with the relative
      property (T). Same if $H$ is the centralizer of a subgroup $G\subset
      \Gamma$ on which the action has spectral gap. Bernoulli and Gaussian
      actions are typical examples of malleable actions. As a consequence
      it follows that if $\Gamma$ is either Kazhdan, is a product of two
      infinite groups, or has infinite center, then any Bernoulli action
      $\Gamma \curvearrowright X=X_0^\Gamma$ is {\it orbit equivalent
      superrigid}, i.e. if $\Lambda \curvearrowright Y$ is a free ergodic
      measure preserving action whose orbits coincide with the orbits of
      $\Gamma \curvearrowright X$ then $\Gamma \simeq \Lambda$ and the
      actions are conjugate.

  • Date: 12/1/06 (Friday), Special Subfactor Seminar,
    3:10-4:30pm in SC 1308

    • Speaker: Sorin Popa, UCLA
    • Title: Rigidity phenomena from spectral gap and malleability
    • Abstract:
      I will explain a new strategy for proving rigidity
      results for II$_1$ factors, relying on the “tension” between
      a spectral gap condition (used in lieu of property T)
      and malleability. Applications include:
      a unique decomposition result for MdDuff factors;
      a primeness result for factors arising from Bernoulli actions of
      non-amenable groups; strong rigidity results for isomorphisms
      between group measure space factors $L^\infty X \rtimes \Gamma
      \simeq L^\infty Y \rtimes \Lambda$, with
      $\Gamma$ a product group and $\Lambda \curvearrowright Y$ Bernoulli.

  • Date: 12/4/06
    • Speaker: Paramita Das, Vanderbilt University
    • Title: Relative commutants of depth two subfactors
    • Abstract:
      We show how Planar Algebra can be used to give a simple proof of the part
      of the Ocneanu-Szymanski theorem which asserts that for a finite index,
      depth two, irreducible subfactor $N \in M$, the relative commutants
      $N^{‘}\cap M_1$ and $M^{‘}\cap M_2$ admit mutually dual Kac algebra
      structures. In the hyperfinite case, the same techniques also prove the
      other part, namely that there is an action of $N^{‘}\cap M_1$ on $M$ with
      invariants $N$. This method extends to the general depth two case where
      the theorem had been generalized by Nikshych and Vainerman to obtain the
      structures of mutually dual `Weak Hopf C^* algebras’.

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Noncommutative Geometry and Operator Algebras
Department of Mathematics
Vanderbilt University
Stevenson Center 1326
Nashville, TN 37240
U.S.A. Phone: (615) 322-6672
Fax: (615) 343-0215
E-mail: ncgoa[at]vanderbilt[dot]edu