Forthcoming events in this series


Fri, 03 Jun 2011

12:00 - 13:00
SR1

Some random facts about the Weil conjectures

John Calabrese
(University of Oxford)
Abstract

I'll start by defining the zeta function and stating the Weil conjectures (which have actually been theorems for some time now). I'll then go on by saying things like "Weil cohomology", "standard conjectures" and "Betti numbers of the Grassmannian". Hopefully by the end we'll all have learned something, including me.

Fri, 27 May 2011

12:00 - 13:00
SR1

Derived categories of coherent sheaves and motives

Shane Kelly
(Universite Paris 13)
Abstract

The derived category of a variety has (relatively) recently come into play as an invariant of the variety, useful as a tool for classification. As the derived category contains cohomological information about the variety, it is perhaps a natural question to ask how close the derived category is to the motive of a variety.

We will begin by briefly recalling Grothendieck's category of Chow motives of smooth projective varieties, recall the definition of Fourier-Mukai transforms, and state some theorems and examples. We will then discuss some conjectures of Orlov http://arxiv.org/abs/math/0512620, the most general of which is: does an equivalence of derived categories imply an isomorphism of motives?

Fri, 20 May 2011

12:00 - 13:00
SR1

Spectral data for principal Higgs bundles

Laura Schaposnik
(University of Oxford)
Abstract

In this talk I shall present some ongoing work on principal G-Higgs bundles, for G a simple Lie group. In particular, we will consider two non-compact real forms of GL(p+q,C) and SL(p+q,C), namely U(p,q) and SU(p,q). By means of the spectral data that principal Higgs bundles carry for these non-compact real forms, we shall give a new description of the moduli space of principal U(p,q) and SU(p,q)-Higgs bundles. As an application of our method, we will count the connected components of these moduli spaces.

Thu, 12 May 2011

13:00 - 14:00
SR1

Topological Borovoi's theorem

David Hume
(University of Oxford)
Abstract

Mikhail Borovoi's theorem states that any simply connected compact semisimple Lie group can be understood (as a group) as an amalgam of its rank 1 and rank 2 subgroups. Here we present a recent extension of this, which allows us to understand the same objects as a colimit of their rank 1 and rank 2 subgroups under a final group topology in the category of Lie groups. Loosely speaking, we obtain not only the group structure uniquely by understanding all rank 1 and rank 2 subgroups, but also the topology.

The talk will race through the elements of Lie theory, buildings and category theory needed for this proof, to leave the audience with the underlying structure of the proof. Little prior knowledge will be assumed, but many details will be left out.

Thu, 05 May 2011

13:00 - 14:00
SR1

Normal Forms, Factorability and Cohomology of HV-groups

Moritz Rodenhausen
(University of Bonn)
Abstract

A factorability structure on a group G is a specification of normal forms of group elements as words over a fixed generating set. There is a chain complex computing the (co)homology of G. In contrast to the well-known bar resolution, there are much less generators in each dimension of the chain complex. Although it is often difficult to understand the differential, there are examples where the differential is particularly simple, allowing computations by hand. This leads to the cohomology ring of hv-groups, which I define at the end of the talk in terms of so called "horizontal" and "vertical" generators.

Thu, 10 Mar 2011

13:00 - 14:00
SR1

The $A_\infty$ de Rham theorem and higher holonomies

Camilo Arias Abad
(University of Zurich)
Abstract

I will explain how Chen's iterated integrals can be used to construct an $A_\infty$-version of de Rham's theorem (originally due to Gugenheim). I will then explain how to use this result to construct generalized holonomies and integrate homotopy representations in Lie theory.

Thu, 24 Feb 2011

13:00 - 14:00
SR1

Yang-Mills theory, Tamagawa numbers and matrix divisors

Dirk Schlueter
(University of Oxford)
Abstract

The topology of the moduli space of stable bundles (of coprime rank and degree) on a smooth curve can be understood from different points of view. Atiyah and Bott calculated the Betti numbers by gauge-theoretic methods (using equivariant Morse theory for the Yang-Mills functional), arriving at the same inductive formula which had been obtained previously by Harder and Narasimhan using arithmetic techniques. An intermediate interpretation (algebro-geometric in nature but dealing with infinite-dimensional parameter spaces as in the gauge theory picture) comes from thinking about vector bundles in terms of matrix divisors, generalising the Abel-Jacobi map to higher rank bundles.

I'll sketch these different approaches, emphasising their parallels, and in the end I'll speculate about how (some of) these methods could be made to work when the underlying curve acquires nodal singularities.

Thu, 17 Feb 2011

13:00 - 14:00
SR1

The geometry and topology of chromatic polynomials

Ben Davison
(University of Oxford)
Abstract

I will talk about a recent paper of Huh, who, building on a wealth of pretty geometry and topology, has given a proof of a conjecture dating back to 1968 regarding the chromatic polynomial (the polynomial that determines how many ways there are of colouring the vertices of a graph with n colours in such a way that no vertices which are joined by an edge have the same colour). I will mainly talk about the way in which a problem that is explicitly a combinatorics problem came to be encoded in algebraic geometry, and give an overview of the geometry and topology that goes into the solution. The talk should be accessible to everyone: no stacks, I promise.

Thu, 10 Feb 2011

13:00 - 14:00
SR1

Graded rings and polarised varieties

Imran Qureshi
(University of Oxford)
Abstract

Many classes of polarised projective algebraic varieties can be constructed via explicit constructions of corresponding graded rings. In this talk we will discuss two methods, namely Basket data method and Key varieties method, which are often used in such constructions. In the first method we will construct graded rings corresponding to some topological data of the polarised varieties. The second method is based on the notion of weighted flag variety, which is the weighted projective analogue of a flag variety. We will describe this notion and show how one can use their graded rings to construct interesting classes of polarised varieties.

Thu, 03 Feb 2011

13:00 - 14:00
SR1

Quotients of group actions in algebraic and symplectic geometry

Victoria Hoskins
(University of Oxford)
Abstract

Consider the action of a complex reductive group on a complex projective variety X embedded in projective space. Geometric Invariant Theory allows us to construct a 'categorical' quotient of an open subset of X, called the semistable set. If in addition X is smooth then it is a symplectic manifold and in nice cases we can construct a moment map for the action and the Marsden-Weinstein reduction gives a symplectic quotient of the group action on an open subset of X. We will discuss both of these constructions and the relationship between the GIT quotient and the Marsden-Weinstein reduction. The quotients we have discussed provide a quotient for only an open subset of X and so we then go on to discuss how we can construct quotients of certain subvarieties contained in the complement of the semistable locus.

Thu, 27 Jan 2011

13:00 - 14:00
SR1

Homological stability of configuration spaces

Martin Palmer
(University of Oxford)
Abstract

I will first introduce and motivate the notion of 'homological stability' for a sequence of spaces and maps. I will then describe a method of proving homological stability for configuration spaces of n unordered points in a manifold as n goes to infinity (and applications of this to sequences of braid groups). This method also generalises to the situation where the configuration has some additional local data: a continuous parameter attached to each point.

However, the method says nothing about the case of adding global data to the configurations, and indeed such configuration spaces rarely do have homological stability. I will sketch a proof -- using an entirely different method -- which shows that in some cases, spaces of configurations with additional global data do have homological stability. Specifically, this holds for the simplest possible global datum for a configuration: an ordering of the points up to even permutations. As a corollary, for example, this proves homological stability for the sequence of alternating groups.

Thu, 20 Jan 2011

13:00 - 14:00
SR1

Stability conditions for curves

Tom Sutherland
(University of Oxford)
Abstract

This talk will be an introduction to the space of Bridgeland stability conditions on a triangulated category, focussing on the case of the derived category of coherent sheaves on a curve. These spaces of stability conditions have their roots in physics, and have a mirror theoretic interpretation as moduli of complex structures on the mirror variety.

For curves of genus g > 0, we will see that any stability condition comes from the classical notion of slope stability for torsion-free sheaves. On the projective line we can study the more complicated behaviour via a derived equivalence to the derived category of modules over the Kronecker quiver.

Wed, 08 Dec 2010

12:00 - 13:00
SR1

A very brief introduction to stable $\AA^1$-homotopy theory

Shane Kelly
Abstract

$\AA^1$-homotopy theory is the homotopy theory for smooth algebraic varieties which uses the affine line as a replacement for the unit interval. The stable $\AA^1$-homotopy category is a generalisation of the topological stable homotopy category, and in particular, gives a setting where algebraic cohomology theories such as motivic cohomology, and homotopy invariant algebraic $K$-theory can be represented. We give a brief overview of some aspects of the construction and some properties of both the topological stable homotopy category and the new $\AA^1$-stable homotopy category.

Mon, 06 Dec 2010

12:00 - 13:00
SR1

Cusps of the Kaehler moduli space and stability conditions on K3 surfaces

Heinrich Hartmann
(Oxford University)
Abstract

We will state a theorem of Shouhei Ma (2008) relating the Cusps of the Kaehler moduli space to the set of Fourier--Mukai partners of a K3 surface. Then we explain the relationship to the Bridgeland stability manifold and comment on our work relating stability conditions "near" to a cusp to the associated Fourier--Mukai partner.



Thu, 02 Dec 2010

13:00 - 14:00
SR1

A Lie-theoretic approach to prolongations of differential systems

Arman Taghavi-Chabert
(University of Oxford)
Abstract

I will sketch a method to prolong certain classes of differential equations on manifolds using Lie algebra cohomology. The talk will be based on articles by Branson, Cap, Eastwood and Gover (arXiv:math/0402100 and ESI preprint 1483).

Thu, 25 Nov 2010

13:00 - 14:00
SR1

Constructing manifolds with special holonomy by resolving orbifolds

Robert Clancy
(University of Oxford)
Abstract

All of Joyce's constructions of compact manifolds with special holonomy are in some sense generalisations of the Kummer construction of a K3 surface. We will begin by reviewing manifolds with special holonomy and the Kummer construction. We will then describe Joyce's constructions of compact manifolds with holonomy G_2 and Spin(7).

Thu, 18 Nov 2010

13:00 - 14:00
SR1

Algebraic approximations to special Kahler metrics

Stuart J Hall
((Imperial College, London))
Abstract

I will begin by defining the space of algebraic metrics in a particular Kahler class and recalling the Tian-Ruan-Zelditch result saying that they are dense in the space of all Kahler metrics in this class.  I will then discuss the relationship between some special algebraic metrics called 'balanced metrics' and distinguished Kahler metrics (Extremal metrics, cscK, Kahler-Ricci solitons...). Finally I will talk about some numerical algorithms due to Simon Donaldson for finding explicit examples of these balanced metrics (possibly with some pictures).

Thu, 11 Nov 2010

13:00 - 14:00
SR1

Maximum principle for tensors with applications to the Ricci flow

Christopher Hopper
(University of Oxford)
Abstract

The maximum principle is one of the main tools use to understand the behaviour of solutions to the Ricci flow. It is a very powerful tool that can be used to show that pointwise inequalities on the initial data of parabolic PDE are preserved by the evolution. A particular weak maximum principle for vector bundles will be discussed with references to Hamilton's seminal work [J. Differential Geom. 17 (1982), no. 2, 255–306; MR664497] on 3-manifolds with positive Ricci curvature and his follow up paper [J. Differential Geom. 24 (1986), no. 2, 153–179; MR0862046] that extends to 4-manifolds with various curvature assumptions.

Thu, 04 Nov 2010

13:00 - 14:00
SR1

Hypersymplectic Manifolds and Harmonic Maps

Markus Röser
(University of Oxford)
Abstract

In the first part of this talk we introduce hypersymplectic manifolds and compare various aspects of their geometry with related notions in hyperkähler geometry. In particular, we explain the hypersymplectic quotient construction. Since many examples of hyperkähler structures arise from Yang-Mills moduli spaces via the hyperkähler quotient construction, we discuss the gauge theoretic equations for a (twisted) harmonic map from a Riemann surface into a compact Lie group. They can be viewed as the zero condition for a hypersymplectic moment map in an infinite-dimensional setup.

Thu, 28 Oct 2010

13:00 - 14:00
SR1

Homogeneous Riemannian manifolds, Einstein metrics and the Ricci flow

Maria Buzano
(University of Oxford)
Abstract

We will recall basic definitions and facts about homogeneous Riemannian manifolds and we will discuss the Einstein condition on this kind of spaces. In particular, we will talk about non existence results of invariant Einstein metrics. Finally, we will talk briefly about the Ricci flow equation in the homogeneous setting.

Thu, 21 Oct 2010

13:00 - 14:00
SR1

Models for threefolds fibred by K3 surfaces of degree two

Alan Thompson
(University of Oxford)
Abstract

A K3 surface of degree two can be seen as a double cover of the complex projective plane, ramified over a nonsingular sextic curve. In this talk we explore two different methods for constructing explicit projective models of threefolds admitting a fibration by such surfaces, and discuss their relative merits.

Thu, 14 Oct 2010

12:00 - 13:00
SR1

Homotopy theory for C*-algebras

Michael Groechenig
(Oxford University Mathematical Institute)
Abstract

The theory of C*-algebras provides a good realisation of noncommutative topology. There is a dictionary relating commutative C*-algebras with locally compact spaces, which can be used to import topological concepts into the C*-world. This philosophy fails in the case of homotopy, where a more sophisticated definition has to be given, leading to the notion of asymptotic morphisms.

As a by-product one obtains a generalisation of Borsuk's shape theory and a universal boundary map for cohomology theories of C*-algebras.

Tue, 29 Jun 2010

11:00 - 12:00
L3
Thu, 24 Jun 2010

12:00 - 13:00
L3