Joint work with Sara Mehidi, Marta Pieropan, Thibault Poiret
Let X --> Y be a morphism of varieties and k a field. Consider the set X(k) of k-points, or solutions to the equations defining X with coordinates in k. If X = V(x^2 + y^2 - 1) for example, then the set of Q-points consists of primitive Pythagorean triples and the geometry of X shows there are infinitely many solutions. According to Hindry-Silverman, "Geometry determines Arithmetic." We want to determine the image of the map on k-points X(k) --> Y(k). Suppose X --> Y arises as the fiber over 0 of a family of varieties X' --> Y'. The geometry of the family X' --> Y' can also constrain the type of k-points that land in the image of X(k) --> Y(k), as Campana observed. Abramovich generalized this notion in a beautiful, incomplete manuscript called "birational geometry for number theorists" and gave us permission to realize this vision using log geometry. Log structures on X, Y remember enough about the families X', Y' to constrain the rational points.
"Birational geometry for number theorists" for log geometers
A districting of a graph G is a partition of G into simply connected subgraphs P_i. MCMC methods are frequently used to sample the space of districtings, with Recombination Steps being a computationally inexpensive and rapidly mixing transition rule to run such a chain. This talk will define Recombination Steps, survey the literature surrounding them, and outline the proof of an irreducibility result for this proposal when G is a triangular subset of the triangular lattice.
An irreducibility result for districtings of triangular subsets of the triangular lattice
Thu, Mar. 13 2:30pm (MATH 3…
Functional Analysis
Jordan Watts (University of Central Michigan)
X
Moving from finite-dimensional calculus to an infinite-dimensional setting immediately forces one to contend with a lot of point-set topology and analysis that was less of a concern before. In this talk, we examine a classical way of taking derivates of a function between locally convex spaces from a diffeological and Sikorski perspective. We apply our results by studying several infinite-dimensional groups of relevance to symplectic topologists. Joint work with Yael Karshon.
Infinite-Dimensional Calculus and Symplectic Topology
"Birational geometry for number theorists" for log geometers