NCGOA Seminar – Fall 2005


Noncommutative Geometry & Operator Algebras Seminar

Fall 2005


Organizers: Dietmar Bisch, Guoliang Yu

Tuesdays, 4:00pm-5:00pm in SC 1432


  • Date: 9/6/05
    • Organizational meeting for NCGOA and RTG seminars
  • Date: 9/22/05 (Thursday), Mathematics Colloquium, 4:10-5:00pm in SC 5211
    • Speaker: Paula Cohen, Texas A&M UniversityTitle: Subvarieties of Shimura varieties, special values of classical functions, and monodromy
    • Abstract:
      Inspired by Hilbert’s 7th problem, Siegel (1932) and Schneider (1937) obtained the first significant results about the transcendence of periods of doubly periodic functions and special values of modular functions. In particular, they found a relation to the class fields occurring in algebraic number theory. Siegel formulated similar problems for G-functions, a special case of which is the classical hypergeometric function. The modern development of this circle of ideas was made possible by the work of Alan Baker and its outgrowth. In our lecture we focus on recent results, for example, the characterization of points at which hypergeometric functions take algebraic values. We describe the surprising role, first noticed by Wolfart, played by non-arithmetic monodromy groups acting on the complex ball. We also show how such problems are related to questions on subvarieties of Shimura varieties. The lecture will be self-contained and accessible to a general audience.
  • Date: 9/23/05 (Friday), Special NCGOA Seminar, 3:00-4:00pm in SC 1432
    • Speaker: Paula Cohen, Texas A&M University
    • Title: Non-commutative boundaries of modular curves and varieties
    • Abstract:
      In this talk we put forward some ideas on how recent work of
      Manin-Marcolli on non-commutative boundaries (or compactifications) of
      modular curves might be extended to more general curves or to higher
      dimension. No background in Number Theory is required to follow the talk.
  • Date: 9/27/05
    • Speaker: Brett Wick, Vanderbilt University
    • Title: A New Proof of the Carleson Embedding Theorem
    • Abstract:
      In this talk, we will give a new proof of Carleson’s Embedding
      Theorem. The proof gives the best known constant in the theorem. This is
      joint work with S. Petermichl and S. Treil.

  • Date: 10/7/05 (Fr), 10/8/05 (Sat) and 10/9/05 (Sun),
    Special Lecture Series (see below for time and place)

    • Speaker: Yan Soibelman, Kansas State University
    • Title: Commutative and noncommutative geometry of mirror symmetry
    • Abstract:
      We will explain the approach to Mirror Symmetry suggested
      in a joint
      project with Maxim Kontsevich. The aim is to explain the phenomenon of
      Mirror Symmetry in terms of homological algebra and non-commutative
      geometry. Discovered by physicists as a duality on a certain class of
      string theories, Mirror Symmetry turned out to be related to many deep
      questions of algebraic and symplectic geometry, algebra, number theory
      and differential equations. Non-commutative geometry provides an
      appropriate framework for study of what is called “D-branes” in the
      String Theory.

      It combines physical idea of degenerating Conformal Field Theories with
      mathematical idea of Gromov-Hausdorff collapse of Calabi-Yau manifolds,
      as well as with unexpected relation to rigid analytic geometry. We
      suggest to view a given Conformal Field Theory as a kind of
      non-commutative space. Such non-commutative spaces can degenerate “at
      infinity”. Mirror symmetry can be explained in terms of the residual
      commutative geometry. On the algebraic side we will meet homotopy
      categories associated with compact symplectic manifolds. I am going to
      explain non-commutative formal geometry of those homotopy categories.
      There is another kind of non-commutative geometry of Mirror Symmetry. It
      is geometry of deformed Calabi-Yau manifolds (a kind of deformation
      quantization). I plan to discuss the way to construct such spaces
      starting with real manifolds equipped with an integral affine structure.
      This part of my lectures is also related to the so-called “tropical
      geometry”.

      The lectures will be accessible to graduate students. Schedule:

      Friday, October 07, 2005

      4:00 pm – 6:00 pm BUTTRICK 201

      Saturday, October 08, 2005

      10:00 am – 12:30 pm BUTTRICK 201

      Sunday, October 09, 2005

      10:00 am – 12:30 pm BUTTRICK 201

      Organizer and contact: Mark Sapir
  • Date: 10/11/05
    • Speaker: Guihua Gong, University of Puerto Rico (visiting Vanderbilt)
    • Title: Invariants and Classification of C*-algebras
    • Abstract:
      In this talk, I will discuss K-theory invariants of
      C*-algebras and some basic ideas in classification theory.
  • Date: 10/13/05 (Thursday), Mathematics Colloquium, 4:10-5:00pm in SC 5211
    • Speaker: William Johnson, Texas A&M University
    • Title: A survey of non linear Banach space theory
    • Abstract:
      There are three reasonable notions of geometric equivalence for metric spaces: Lipschitz equivalence, uniform equivalence, and Gromov’s notion of coarse equivalence (which has recently attracted interest from geometric analysts because of its relation to the Novikov and Baum-Connes conjectures). I’ll survey what is known about these types of equivalences when at least one of the metric spaces is a Banach space. When both spaces are Banach spaces, a fundamental question is: When does the existence of one of these non linear equivalences between the spaces imply the existence of a linear equivalance (i.e., an isomorphism)? If there is time I’ll also discuss the recently introduced concept of Lipschitz quotient maps, which are closely related to the non collapsing maps studied by David and Semmes.

      The talk is suitable for graduate students as well as faculty.
  • Date: 10/18/05
    • Speaker: Guihua Gong, University of Puerto Rico (visiting Vanderbilt)
    • Title: Invariants and Classification of C*-algebras, Part II
  • Date: 10/25/05
    • no meeting, fall break

  • Date: 10/31/05 (Monday), Special NCGOA Seminar,
    4:10pm-5:00pm in SC 1307

    • Speaker: Paul Baum, Penn State University
    • Title: The Extended Quotient
    • Abstract:
      Let G be a finite group acting on a topological space X.
      Then we can form the quotient space X/G.
      This talk presents a different kind of quotient space which will be
      referred to as the extended quotient. Applications
      are to equivariant Chern character and to the representation theory of
      p-adic groups. This talk is intended for
      non-experts and should be accessible to graduate students.
  • Date: 11/1/05
    • Speaker: Magdalena Musat, University of Memphis
    • Title: Boundedness of noncommutative martingale transforms and
      an approximation result for hyperfinite martingales
    • Abstract:
      Inspired by the classical theory, noncommutative probability is
      motivated by quantum physics.
      Gilles Pisier and Quanhua Xu proved that, under certain conditions
      on the filtration, a noncommutative martingale can be transferred
      to a commutative vector-valued martingale for which classical
      theory applies.

      We will show that in the setting of a hyperfinite
      von Neumann algebra, an $L_p$-martingale can be approximated in
      the p-norm ($1 < p < \infty$) by martingales with respect to finite dimensional filtrations, for which the argument of Pisier and Xu applies. The proof relies on a perturbation argument using approximate matrix units techniques. We use this result to study the operator space UMD property, introduced in this context by Pisier, and establish connections with the Banach space property.

      Click here for a pdf version of the abstract.
  • Date: 11/8/05
    • Speaker: Dechao Zheng, Vanderbilt University
    • Title: Quantum Douglas Algebras
    • Abstract:
      A Douglas algebra $B$ is a closed subalgebra of $L^{\infty}$
      containing $H^{\infty}$. Let $\mathcal B$ be the algebra on the disk
      generated by the harmonic extensions of the functions in $B$. The
      “quantum Douglas algebra” is the Toeplitz algebra
      generated by Toeplitz operators (on the weighted Bergman
      space) with symbols in $\mathcal B$.

      In this talk I will discuss some properties of quantum Douglas algebras.
  • Date: 11/15/05
    • Speaker: Qin Wang, Dong Hua University (visiting Vanderbilt)
    • Title: Ideal Structure of the Roe Algebras
    • Abstract:
      The Roe algebras are $C^*$-algebras associated to metric spaces. These
      algebras have important applications to geometry, topology and analysis,
      due to the fact that their $K$-theory groups are receptacles of higher
      indices of elliptic differential operators on noncompact spaces.
      In this talk, I will discuss ideal structure of the Roe algebras.
      If a metric space satisfies a certain nice condition, i.e. Yu’s property A,
      then any ideal of the Roe algebra can be geometrically constructed by
      a bunch of subspaces of the metric space. In general, however, this is
      not the case. I will discuss a counterexample as well. This talk is
      based on joint work with Xiaoman Chen.

  • Date: 11/22/05
    • no meeting, Thanksgiving break
  • Date: 11/29/05
    • Speaker: Lin Shan, Vanderbilt University
    • Title: An equivariant index theory and non positively curved space
    • Abstract:
      In this talk we define an equivariant version of index theory from the K-homology
      of the space X to the K-theory of the group invariant Roe algebra C*(X)^Gamma,
      and prove that the equivariant index map is injective when the manifold is non
      positively curved.

  • Date: 12/2/05 (Fr) and 12/3/05 (Sat),
    Special Lecture Series (see below for time and place)

    • Speaker: Jean Bellissard, Georgia Tech
    • Title: Informal Talks about the Quantum Hall Effect and its
      Mathematical Aspects
    • Abstract:
      The first lecture will review the physics of the integer and of
      the fractional quantum Hall effect. In the second, the Noncommutative
      Geometry framework will be described together with the main theorem
      concerning the Integer Quantum Hall Effect. If the speaker is still alive,
      the third lecture will be a discussion of the fractional effect which, to
      a large extent, still lacks a first principle description.

      Warning: The three lectures will be based on the 1994 paper on
      Noncommutative Geometry of the Quantum Hall effect. However open
      discussions will be welcome and the emphasis might be changed depending on
      the interest of the participants. A sample of these lectures can be found on
      http://www.math.gatech.edu/~jeanbel/talksjbE.html
      (look at either May 3-6,2005 or August 16-20 1999)

      Schedule:

      Friday, December 2, 2005

      2:10 pm – 3:30 pm in SC 1312

      Saturday, December 3, 2005

      11:00 am – 12:30 pm in SC 1432

      2:30 pm – 4:00 pm in SC 1432

      Organizer and contact: Dietmar Bisch

  • Date: 12/6/05
    • Speaker: Tavan Trent, University of Alabama
    • Title: Maximal Ideals in Algebras of Functions
    • Abstract:
      We give a brief survey of “corona problems” for various algebras of
      functions. Along the way, several open problems are mentioned. We
      conclude
      by discussing some recent work on one of these problems, the corona
      problem for H$^\infty(D^n)$.

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Contact

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