Operator Algebras Seminar, Fall 1996
- Speaker: Chuck Akemann, UCSB
- Title: Lyapunov’s Theorem meets the Spectral Theorem in a II_1 factor?
- Speaker: Dan Voiculescu, UC Berkeley
- Title: Free Probability Theory and von Neumann Algebras
- Abstract: In noncommutative probability theory independence can be based
on free products instead of tensor products . This leads to a highly
noncommutative theory: freely independent variables do not commute
in general. Convolution operators on free groups and random matrices
in the large N limit provide models for free independence . The theory
has led to the solution of several problems concerning the von Neumann
algebras of free groups.
- Speaker: Eero Saksman, University of Helsinki
- Title: Multipliers on spaces of bounded linear operators
- Speaker: Bjorn Birnir, UCSB
- Title: Well-posedness
- Speaker: Dietmar Bisch, UCSB
- Title: Introduction to subfactors, Part I: commuting squares
- Speaker: Tony Falcone, UCLA
- Title: A Canonical Construction for the Core of a Type III von Neumann A
lgebra - Abstract: It has long been a part of the “folklore” associated with the
theory of Type III von Neumann algebras that the (Type II_\infty) core which
arises in the crossed product decompostion of an arbitrary Type III von Neumann
algebra M is, in fact, a canonical object. That is to say, it should not
depend on the choice of (faithful, normal and semi-finite) weight \phi. Of
course, typically one would denote the core N of M by M \rtimes_{\sigma^\phi}R,
which indicates the dependence of N on the choice of phi. It is possible,
however, to construct N in such a way that it no longer depends on one’s choice
of weight.
- Speaker: Hans Wenzl, UCSD
- Title: Subfactors from quantum groups at roots of unity
- Speaker: Dietmar Bisch, UCSB
- Title: A survey of subfactors
- Abstract:
The analysis of subfactors, i.e. certain inclusion of algebras of
operators on a Hilbert space, led Vaughan Jones in the early
80’s to the discovery of his knot invariant, the Jones polynomial.A subfactor has a rich analytical and combinatorial structure
and we will illustrate some of the combinatorial aspects in detail. In
particular, certain bipartite graphs appear as basic invariants
associated to subfactors, including the Coxeter-Dynkin graphs of type A,
D_{2n}, E_6 and E_8. Extremely rigid systems of inclusions of finite
dimensional algebras arise naturally from the representation theory
of a subfactor such as the system of Temperley-Lieb algebras, which turns
out to be the fundamental symmetry associated to every subfactor.We will try to explain in this talk the basic objects and some of the
fundamental concepts appearing in the theory of subfactors and we will
discuss the interactions of the theory of subfactors with theoretical
physics and other fields of mathematics, such as low dimensional topology.
- Speaker: Stephen Simons, UCSB
- Title: On finite familes of convex functions on a convex set
- no meeting (Thanksgiving Holiday)
- Speaker: Mohammed Dahleh, UCSB (Engineering)
- Title: The Formulation of a Class of Robust Control Design Questions as
Problems in Functional Analysis
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