(Due to COVID-19 crisis it is canceled)
This summer workshop aims to provide opportunity for advanced Ph.D. students, postdocs and young researchers to interact in their research areas. There will be some mini-courses and research talks, followed by informal discussions.
The mini-courses will be given by Yi Ni, Çağrı Karakurt and Mustafa Korkmaz.
Organizing Committee: Fırat Arıkan, Çağrı Karakurt, Üstün Yıldırım, Eylem Zeliha Yıldız.
Applications will be open on January 1, 2021.
For further questions about this event please contact Eylem Zeliha Yıldız: yildiz@math.harvard.edu
Speaker | Title and Abstract |
---|---|
Yi Ni | Heegaard Floer homology and Dehn surgery In this course, we will give a brief introduction to Heegaard Floer homology, with focus on its applications to Dehn surgery. We may cover the following topics: the construction of Heegaard Floer and knot Floer chain complexes, basic properties, surgery exact triangles, genus bound and fiberedness, the mapping cone formula for Dehn surgery, correction terms, L-space surgery. |
Çağrı Karakurt | Correction terms in Heegaard Floer homology Correction term is a powerful invariant of 3-manifolds that is useful in answering a number of important problems in low-dimensional topology about Dehn surgery, homology cobordism `and knot concordance. In many cases one can compute the correction term using purely combinatorial methods without a deep knowledge of the full Heegaard Floer theory. In this mini course I will introduce a few different computational techniques and discuss their applications. This series is accessible to those graduate students with the basic background in geometry and topology. |
Mustafa Korkmaz | Mapping class groups of surfaces The mapping class group Mod$(\Sigma_g)$ of a closed oriented surface $\Sigma_g$ of genus $g$ is defined as the group of isotopy classes of orientation-preserving diffeomorphisms $\Sigma_g \to \Sigma_g$. It is a fundamental object in low-dimensional topology. It is known that this group can be generated by finitely Dehn twists, torsion elements and also by involutions. In these lectures, I will first discuss how to find * a finite set of Dehn twist generators, * the minimal number of Dehn twist generators, * the minimal number of torsion generators, * the minimal number of involution generators, and * the minimal number of commutator generators of the group Mod$(\Sigma_g)$, roughly in the chronological order. At the end, I am also planning to talk on low dimensional linear representations of the mapping class group. |