Algebraic and Symplectic Geometry Seminar
|
Tue, 03/05/2011 15:45 |
Martijn Kool (Imperial) |
Algebraic and Symplectic Geometry Seminar  |
L3 |
|
Counting the number of curves of degree $d$ with $n$ nodes (and no further singularities) going through $(d^2+3d)/2 - n$ points in general position in the projective plane is a problem which was already considered more than 150 years ago. More recently, people conjectured that for sufficiently large $d$ this number should be given by a polynomial of degree $2n$ in $d$. More generally, the Göttsche conjecture states that the number of $n$-nodal curves in a general $n$-dimensional linear subsystem of a sufficiently ample line bundle $L$ on a nonsingular projective surface $S$ is given by a universal polynomial of degree $n$ in the 4 topological numbers $L^2, L.K_S, (K_S)^2$ and $c_2(S)$. In a joint work with Vivek Shende and Richard Thomas, we give a short (compared to existing) proof of this conjecture. |
|||
|
Tue, 10/05/2011 15:45 |
Maksim Maydanskiy (Cambridge) |
Algebraic and Symplectic Geometry Seminar |
L3 |
|
Tue, 17/05/2011 15:45 |
Arend Bayer (University of Connecticut) |
Algebraic and Symplectic Geometry Seminar |
L3 |
| I will discuss a conjectural Bogomolov-Gieseker type inequality for "tilt-stable" objects in the derived category of coherent sheaves on smooth projective threefolds. The conjecture implies the existence of Bridgeland stability conditions on threefolds, and also has implications to birational geometry: it implies a slightly weaker version of Fujita's conjecture on very ampleness of adjoint line bundles. | |||
|
Tue, 31/05/2011 15:45 |
Bernhard Keller (Paris 7) |
Algebraic and Symplectic Geometry Seminar |
L3 |
|
Tue, 07/06/2011 15:45 |
Aaron Bertram (Utah) |
Algebraic and Symplectic Geometry Seminar |
L3 |
The effective cone of the Hilbert scheme of points in  has
finitely many chambers corresponding to finitely many birational models.
In this talk, I will identify these models with moduli of
Bridgeland-stable two-term complexes in the derived category of
coherent sheaves on and describe a
map from (a slice of) the stability manifold of
to the effective cone of the Hilbert scheme that would explain the
correspondence. This is joint work with Daniele Arcara and Izzet Coskun. |
|||
