SCIENTIFIC PROGRAMS AND ACTIVITIES

Monday June 22, 2015
4:00pm

BA6183

Ron Douglas
An Analytic Grothendieck-Riemann-Roch Theorem

The Arveson Conjecture would provide an analytic object for every homogenous polynomial ideal. The BDF theory yields an odd K-homology class for such an object and the correspondence between ideals and such classes can be viewed as a generalization of the Grothendieck-Riemann-Roch Theorem. In my talk I will discuss these matters including some recent results of Tang, Yu and myself for ideals with smooth zero variety.

Friday May 29, 2015
2:10pm

BA026

James Lutely
The Generalized Goodearl Construction

Goodearl's original construction is an AH algebra that uses "diagonal" maps in its direct limit. We will define a construction from general RFD algebras which subsumes several constructions which have appeared since Goodearl in the work of Villadsen, Lin and others. We will discuss the difficulty in determining anything meaningful in the general RFD case when using non-trivial projections. Supposing that all projections are trivial we will prove stable rank one in full generality. Provided that the construction uses a unique inclusion at each stage, we will show a dichotomy which yields TAF algebras in one case and approximately divisible algebras in the other. Hence, Z-stability and unperforation are universal under this assumption.

Tuesday May 5, 2015
2:10pm

James Lutely
QD and AF algebras of higher rank graphs

A higher rank graph is a category consisting of different "coloured" morphisms which we think of as edges which obey rigid factorization rules. Two C*-algebras are associated to each graph, one which permutes finite paths, and a quotient which permutes infinite paths, which correspond to ultrafilters. Both may also be described as groupoid algebras. Here we characterize when the first algebra is QD, and we give necessary and sufficient conditions for each algebra to be AF. For 2-graphs we show that the two algebras are AF simultaneously, and assuming that the underlying 2-coloured graph is well behaved, we characterize when they are AF.

Thursday April 9, 2015
2:10pm

Working Seminar

Friday April 2, 2015
2:10pm

Stuart White
Coloured Classification of Maps

Monday March 30, 2015
4:00pm

Location: BA6183

Raphael Ponge (Seoul National University)
Noncommutative geometry, equivariant cohomology, and conformal invariants

We will explain how to apply the framework of noncommutative geometry in the setting of conformal geometry. We plan to describe three main results. The first result is a reformulation of the local index formula of Atiyah-Singer in conformal geometry, i.e., in the setting of the action of a group of conformal-diffeomorphism. The second result is the construction of new conformal invariants out of equivariant characteristic classes. The third result is a version in conformal geometry of the Vafa-Witten inequality for eigenvalues of Dirac operators. This is joint work with Hang Wang (University of Adelaide).

Wednesday March 11, 2015
2:10pm

James Lutely
The Structure of Essential Quasidiagonal Representations

We will review some of Dadarlat's work on quasidiagonal C*-algebras. He gave a proof that any QD C*-algebra may be embedded into one which is a limit of RFD algebras which uses the structure of essential representations to give more information on the limit sequence than the Blackadar Kirchberg approach (although it applies to a smaller class of algebras). It is also stronger in the sense that it does not require nuclearity or even exactness, but does pass these properties as well as the UCT to the RFD algebras when present in the original algebra. We will show how this additional information can be used in TAF and ultimately AF embeddings.

Tuesday March 3, 2015
2:10pm

Michael Hartz
Classification of multiplier algebras of Nevanlinna-Pick spaces

Nevanlinna-Pick spaces are Hilbert function spaces for which an analogue of the Nevanlinna-Pick interpolation theorem from complex analysis holds. We will consider their multiplier algebras, which are commutative semi-simple non-selfadjoint operator algebras. The investigation of the classification problem for these algebras was initiated by Davidson, Ramsey and Shalit.

I will report on the current state of this problem and talk about recent work which uses a somewhat different perspective on these algebras.

Thursday February 26, 2015
2:10pm

Emily Redelmeier
Real and Quaternionic Second-Order Freeness

Free probability (a noncommutative analogue of probability) provides a method for studying the behaviour of large random matrices, in particular in the several-matrix context. Second-order freeness was developed in order to study the second-order behaviour (fluctuations around limits) of random matrices. However, unlike in the first-order case, real and quaternionic matrices behave differently from complex matrices. I will focus on the behaviour of quaternionic matrices, which show surprising behaviour rooted in the asymmetry which appears in the in the several-matrix context due to the non-cyclic trace.

Thursday February 19, 2015
2:10pm

Working Seminar

Tuesday February 17, 2015
2:10pm

Working Seminar

February 11, 2015
3:30pm

Stewart Library

Alessandro Vignati
Set theory and amenable operator algebras

I will present my past and present work on logic and operator algebras. First I will show the construction of a nonseparable amenable operator algebra A with the property that every nonseparable subalgebra of A is not isomorphic to a C*-algebra, yet A is an inductive limit of algebras isomorphic to C*-algebras. Secondly, I will sketch possible techniques, associated to Model Theory in a continuous setting, that can be applied to operator algebras.

James Lutley
Direct Limits of RFD Algebras

We will discuss a variety of connected results about limits of residually finite dimensional C*-algebras and compare them with Kirchberg and Blackadar's work on generalized inductive limits.

Tuesday January 27, 2015
2:10pm

Working Seminar

Friday January 23, 2015
11:00am

Stewart Library

Martino Lupini
Operator algebras and abstract classification

We present applications of Borel complexity theory and Fraisse theory to the study of C*-algebras, operator spaces, and their automorphisms.

James Lutley
Traces and AF Embeddings

We will revisit Lin's construction of an AF embedding from a sequence of RFD algebras. We will discuss the freedom we have in choosing an embedding and which traces may be extended to an AF algebra.

David Barmherzig
Functional Map Methods in Computational Geometry

Non-rigid shape matching is an important problem in computational geometry that has many emerging applications in computer graphics, computer vision, and image processing. In 2012, Guibas et al. introduced functional map methods as a new powerful tool for shape matching and many other related problems. This introduction of functional maps has also introduced many interesting mathematical questions which are currently being researched.

Anatoly Vershik
Notion of the standardness in the theory of AF-algebras, and iterations of Kantorovich transport metric

The notion of the standardness came from the theory of filtration (=decreasing sequences) of sigma-fields in 70-th. In the theory of AF-algebras we also have the natural filtration in the space of paths of Bratelli diagrams ---"tail-filtration" (the sets of n-th sigma-filed consist with the classes of paths up to first n levels of the path.) So by definition the standard $AF C^*$ -algebra is algebra with standard tail filtration.

The criteria of standardness uses so called iteration of Kantorovich metric/ which leads to the notion of intrinsic metric on the paths. More exactly, the criteria reduces to the uniform compactness of the levels of graph. The following theorem shows the role of the standardness

The set of the indecomposable traces of standard AF-algebra is a compactification under the intrinsic semimetric n the space of paths.

Alessandro Vignati
The total reduction property

I will give an explanation of the results of Gifford about the Total Reduction property, a property shared by all amenable operator algebras, relevant to the purpose of attacking the isomorphism problem. References can be found here.

James Lutley
Inner quasidiagonality and AF Embeddings

We isolate the obstruction to AF embeddings of nuclear UCT QD algebras via the path we have previously discussed and propose a solution to this problem.

Alessandro Vignati
Abelian amenable operator algebras are isomorphic to C*-algebra

I will present the proof of Marcoux and Popov that amenable abelian operator algebras are isomorphic to a C*-algebras.

Robin Deeley
Correspondences for Smale spaces

We discuss joint work with Brady Killough and Michael Whittaker. This work centers around the functorial properties of the homology for Smale spaces introduced by Ian Putnam. In the case of a shift of finite type this homology theory is Krieger's dimension group; this case will be discussed in detail.

The fundamental object of study are correspondences between Smale spaces; the precise definition will be given in the talk. However, the idea is to encode both types of functorial properties of Smale spaces (with respect to Putnam's homology theory) into a single object. No knowledge of Smale spaces or Putnam's homology is required for the talk.

Robin Deeley
Relative constructions in geometric K-homology

The Baum-Douglas model realizes K-homology using geometric cycles (i.e., via data from manifold theory). The isomorphism between this realization of K-homology and analytic definition of Kasparov naturally leads to a proof of the Atiyah-Singer index theorem.

We discuss the process of proving other index theorems using the framework of "relative geometry K-homology". Example of such theorems include the Freed-Melrose index theorem and theorems from R/Z-valued index theory.

Magdalena Georgescu
Characterization of spectral flow in a type II factor

I will start with an introduction to spectral flow. In B(H) (the set of bounded operators on a Hilbert space), the spectral flow counts the net number of eigenvalues which change sign as one travels along a path of self-adjoint Fredholm operators. It is possible to generalize the concept of spectal flow to a semifinite von Neumann algebra, as we can use a trace on the algebra to measure the amount of spectrum which changes sign. I will give a characterization of spectral flow in a type II factor, and a sketch of the proof.

September 29, 2014
11:00am-1:00pm

Alessandro Vignati
On what I learnt in Glasgow about the UCT (Part 2)

After the reviewing on the basic definitions related to TAF algebras, I will give a proof of the fact that, in the TAF simple case, homotopic *-homomorphisms are necessarily approximately unitarily equivalent. If there is a time I will sketch an idea of how to prove that KK-equivalent *-homs are approximately unitarily equivalent, passing through the mod n KK-theory.

We report on a proof of the main result in a paper of Sato, White, and Winter which establishes finite nuclear dimension from Z-stability for the usual Toms-Winter C*-algebras with a unique tracial state. A key idea here, which also appeared in an earlier paper of Matui and Sato, is the two-colored approximately inner flip. The end result is the estimate dr(A) < 4 -obtained by using UHF-stable approximations twice, with each approximately inner flip contributing two colors.

September 22, 2014
11:00am-1:00pm

Alessandro Vignati
On what I learnt in Glasgow about the UCT (Part 1)

I will present an introduction on the UCT and KK-theory and a collection of results related to the UCT in the TAF case. This seminar will follow the lectures of Marius Dadarlat and Christian Voigt in a recent Masterclass in Glasgow.

August 21, 2014
2:10pm

Jeffrey Im,
Nuclear dimension and Z-stability

We will sketch the original construction of the Jiang-Su algebra and discuss some of its properties. Apart from serving as the first (and only) example of its kind, understanding its role in K- theoretic classification of simple separable nuclear of C*-algebras has been of great interest in recent years. A number of results indicate that the largest class of C*-algebras for which Elliott's classification conjecture can hold is for those which are also Z- stable. Various disparate regularity properties, each of which is helpful for classification, arise as a consequence of being Z-stable. A well-known conjecture characterizing manifestations of Z-stability in a certain class of C*-algebras is the Toms-Winter conjecture. We discuss one of the properties, finite nuclear dimension, and progress on the conjecture.

Juno Jung,
The necessity of quasidiagonality and unique tracial states

On Matui and Sato's paper, titled "Decomposition rank of UHF- absorbing C*-algebras'", proves that if A is a unital separable simple C*-algebra with a unique tracial state, then if A is nuclear, quasidiagonal and has strict comparison or projections, then the decomposition rank of A is at most 3. As a corollary, a partial affirmation of the Toms and Winters conjecture can be proven. In this talk, we focus on how quasidiagonality and having a unique tracial state are necessary conditions for this theorem.

August 19, 2014

We will introduce sufficient and necessary conditions to ensure that the algebras associated with a higher rank graph are AF. These algebras are the Toeplitz extension, which has a representation on finite paths, and the main algebra, represented on infinite paths, which correspond to ultrafilters of the finite path space. We will discuss what obstructions exist, and whether or not the quotient can be AF when the Toeplitz extension is not.