Rigidité et flexibilité pour des plongements symplectiques
par
Felix Schlenk
→
Europe/Paris
ICJ
ICJ
1er étage bâtiment Braconnier, Université Claude Bernard Lyon 1 - La Doua
Description
We look at the following chain of symplectic embedding problems in dimension four.
E(1,a) \to Z^4(A) E(1,a) \to P(A,bA) (b \in \NN) E(1,a) \to T^4(A)
Here $E(1,a)$ is a symplectic ellipsoid, $Z^4(A)$ is the symplectic cylinder $D^2(A) \times R^2$,
$P(A,bA) = D^2(A) \times D^2(bA)$ is the polydisc, and $T^4(A) = T^2(A) \times T^2(A)$,
where $T^2(A)$ is the torus of area $A$.
In each problem we ask for the smallest $A$ for which $E(1,a)$ symplectically embeds.
The answer is very different in each case: total rigidity, total flexibility, and a two-fold subtle transition
between them.
The talk is based on works by Cristofaro-Gardiner, Frenkel, Latschev, McDuff, Müller and myself.
