Talk

I will give a survey of stable homotopy refinements of Floer homology theories for 3-manifolds and Khovanov homology of knots and links. The emphasis will be on structural features of the theories that become more transparent from the stable homotopy perspective. I will also point out some open problems related to the functoriality with respect to 4-dimensional cobordisms in Seiberg-Witten theory.

Closed geodesics on the modular curve define certain homology classes of SL(2,Z). These homology classes are very interesting objects that are related to the arithmetic of real quadratic fields, half-integral weight modular forms, etc. . For example, it is known that the pairing between such homology classes and the Eisenstein class (a cohomology class of SL(2,Z) defined by Eisenstein series) gives special values of zeta functions of real quadratic fields, leading to many applications.

In this talk, I will discuss the size of the subgroup (in the homology of SL(2,Z)) generated by such homology classes defined by closed geodesics and its consequences. This talk is based on joint work in progress with Ryotaro Sakamoto.

Seminar webpage:  https://guests.mpim-bonn.mpg.de/bianchi/wiqi.html

Mirror symmetry predicts that for any Fano manifold $X$ there should be a Landau-Ginzburg model $(X^{\vee},W)$ such that the quantum $D$-module of $X$ is isomorphic to the Gauss-Manin system of $(X^{\vee},W)$. In addition, the natural lattice structures on the spaces of flat sections of these $D$-modules, one coming from the image of the Chern character of $X$ and one from certain integral relative homology of $X^{\vee}$, should match, after the former is twisted by the Gamma class. These predictions have been verified for toric Fano manifolds.

In this talk, I will discuss the case when $X$ is a flag variety of arbitrary Lie group type, where $(X^{\vee},W)$ is known to be the Rietsch mirror. I will focus on $1=ch([\mathcal{O}_X])$ and explain the result that this element corresponds to the totally positive part of $X^{\vee}$ in the sense of Lusztig. If time permits, I will explain how to apply this result to prove Gamma conjecture I for these varieties.

In this talk, I will discuss current developments on hyperbolicity of Jensen polynomials that began with the seminal work of Griffin, Ono, Rolen, and Zagier. Furthermore, I will present family of inequalities for certain partition statistics. This is an ongoing joint work with Kathrin Bringmann and Larry Rolen.
 

Seminar webpage:  https://guests.mpim-bonn.mpg.de/bianchi/wiqi.html

The theory of perfectoid towers, introduced by Ishiro-Nakazato-Shimomoto, provides an axiomatic approach to perfectoid theory in commutative algebra through tower-theoretic approximations. In contrast, Bhatt and Scholze introduced prisms as a "deperfection" of perfectoid rings. Our main result shows that a "gradual perfection" of a prism becomes a perfectoid tower. As a consequence, we prove that any p-torsion-free p-adically complete delta-ring that is reduced modulo p admits a perfectoid tower. This approach allows for more systematic construction of perfectoid rings and towers from Noetherian rings than previously possible. We also provide new examples of perfectoid towers arising from certain singularities, which were inaccessible by previous methods. In this talk, we will review the concepts of perfectoid towers, explain our construction from prisms, and demonstrate its applications through these novel examples.