Bialgebraicity in local Shimura varieties
Sean Howe (University of Utah)
Abstract: A classical transcendence result of Schneider on the modular $j$-invariant states that, for $\tau \in \mathbb{H}$, both $\tau$ and $j(\tau)$ are in $\overline{\mathbb{Q}}$ if and only if $\tau$ is contained in an imaginary quadratic extension of $\mathbb{Q}$. The space $\mathbb{H}$ has a natural interpretation as a parameter space for $\mathbb{Q}$-Hodge structures (or, in this case, elliptic curves), and from this perspective the imaginary quadratic points are distinguished as corresponding to objects with maximal symmetry. This result has been generalized by Cohen and Shiga-Wolfart to more general moduli of Hodge structures (corresponding to abelian-type Shimura varieties), and by Ullmo-Yafaev to higher dimensional loci of extra symmetry (special subvarieties), where bialgebraicity is intimately connected with the Pila-Zannier approach to the Andre-Oort conjecture.
In this talk, I will discuss work in progress with Christian Klevdal on an analogous bialgebraicity characterization of special subvarieties in Scholze's local Shimura varieties and more general diamond moduli of $p$-adic Hodge structures.
There will be a pretalk!
number theory
Audience: researchers in the topic
Comments: pre-talk
Series comments: Most talks are preceded by a pre-talk for graduate students and postdocs. The pre-talks start 40 minutes prior to the posted time (usually at 1:20pm Pacific) and last about 30 minutes.
| Organizers: | Kiran Kedlaya*, Alina Bucur, Aaron Pollack, Cristian Popescu, Claus Sorensen |
| *contact for this listing |