| XVIIIth
Oporto Meeting on Geometry, Topology and Physics |
||
| 9th to 12th July 2009 | ||
Talks 1: |
Courses | Introductory courses | Invited talks | talks | 1 | 2 | 3 |
|
- Representations
up to homotopy and cohomology of
classifying spaces (Camilo
Arias Abad, University of Zurich).
Abstract:
1.We will show how
representations up to homotopy appear in the problem of computing
cohomology of classifying spaces of Lie groupoids. Specifically, we
will show how to generalize a formula of Bott [6] that relates the
cohomology of BG to the representations on polynomials in the Lie
algebra. I will aslo explain how this formula relates to the models of
Getzler and Cartan for equivariant cohomology.
This is based on joint works with Marius Crainic and Benoit Dherin.
This is based on joint works with Marius Crainic and Benoit Dherin.
- Geometric
quantization
of families of degenerating complex structures (Thomas Baier, Instituto
Superior Tecnico, Lisboa).
Abstract:
Using a weak formulation (on
distributions) of the equations of covariant constancy as a unified
setting for Geometric Quantization in both positive (i.e. complex) and
non-negative (real or mixed) polarizations, we study some aspects of
the behaviour of the associated quantum bundle as the polarization
degenerates for two families of examples, toric manifolds (based on the
pre-print arXiv:0806.0606) and abelian varieties.
Abstract:
Atiyah and Bott studied the
Morse theoretic properties of the Yang-Mills functional, L: A -> R,
defined of the space A of connections over a Riemann surface S. They
found that the functional is (gauge equivariantly) perfect, meaning
that the Morse inequalities are in fact equalities. This enabled them
to compute Betti numbers for the minimizing set for L, which can be
identified with the moduli stack of semistable holomorphic bundles over
the surface S.
More recently, various authors have considered the situation when S is nonorientable. Surprisingly, it was found that at least for bundles of rank 2 and 3, the Yang-Mills functional is "antiperfect" in the sense that the Morse inequalities are as unequal as possible. This opposite extreme also allows a computation of the Betti numbers of the minimizing set for L. We review these results and discuss some implications.
More recently, various authors have considered the situation when S is nonorientable. Surprisingly, it was found that at least for bundles of rank 2 and 3, the Yang-Mills functional is "antiperfect" in the sense that the Morse inequalities are as unequal as possible. This opposite extreme also allows a computation of the Betti numbers of the minimizing set for L. We review these results and discuss some implications.
Abstract:
An origami manifold is a
manifold equipped with a closed 2-form which is symplectic everywhere
except on a hypersurface, where it is a folded form whose kernel
defines a circle fibration. In this talk, I will explain how an origami
manifold can be unfolded into a collection of symplectic pieces and
conversely, how a collection of symplectic pieces can be folded (modulo
compatibility conditions), into an origami manifold. Using equivariant
versions of these operations, we will see how the classic symplectic
results of convexity and classification of toric manifolds translate to
the origami world. There will be pictures resembling paper origami, but
no instructions on how to fold a paper crane. This is joint work with
Victor Guillemin and Ana Cannas da Silva.