Talk

Contact: Christian Kaiser (kaiser @ mpim-bonn.mpg.de)

Contact: Aru Ray (aruray @ mpim-bonn.mpg.de)

Donald and Vafaee described a way to use Furuta’s 10/8 theorem to obstruct sliceness in the 4-ball and Linh Truong used a refinement, the 10/8 +4 theorem of Hopkins-Lin-Shi and Hu, to strengthen this sliceness obstruction. We will show how to expand on this technique to obtain lower bounds for four-ball genus and present some calculations for satellite knots. This is joint work in progress with Sashka Kjuchukova and Linh Truong.

Contact: Nicolas Addington

Contact: Nicolas Addington

Contact: Christian Kaiser

Ever since seminal work of Gromov, Floer, Donaldson, and Fukaya in the late 80s and early 90s, a major theme in symplectic geometry has been the construction of invariants defined in terms of moduli spaces of J-holomorphic curves. In this minicourse, I will explain some of these invariants, and describe how creative use of auxiliary moduli spaces of J-curves can equip these invariants with extra structure. The main reference will be my survey article with Abouzaid, https://arxiv.org/abs/2210.11159 . I will not assume any prior knowledge of symplectic geometry.

Chowla's conjecture postulates that the L-function of a quadratic character over Q should never vanish at s=1/2. At present we know that this holds for a positive proportion of characters, thanks to Soundararajan. We also know that over function fields Fq(T) the naive analogue of Chowla's conjecture is false: Li has constructed infinitely many quadratic characters with L-function vanishing at 1/2. The refined form of Chowla's conjecture postulates that the non-vanishing should hold with probability 1. This statement is grounded in the Katz--Sarnak random matrix heuristics and has seen partial evidence thanks to the works of Florea,Florea--David--Lalin, Ellenberg--Li--Shusterman, where it was established for each q a positive proportion of non-vanishing (with proportions getting better as q goes to infinity). In this talk I will discuss some of the ingredients of an upcoming joint work with Koymans and Shusterman, where we establish that the refined form of Chowla's conjecture holds for each fixed q congruent to 3 modulo 4. 

Contact: Aru Ray (aruray @ mpim-bonn.mpg.de)

Contact: Aru Ray (aruray @ mpim-bonn.mpg.de)

We show that every non-trivial strongly quasipositive knot is smoothly concordant to infinitely many pairwise non-isotopic strongly quasipositive knots. In contrast to our result, Baader, Dehornoy and Liechti showed that every (topologically locally-flat) concordance class contains at most finitely many positive knots. Moreover, it was conjectured by Baker that smoothly concordant strongly quasipositive fibered knots are isotopic. Our construction uses a satellite operation with companion a slice knot with maximal Thurston-Bennequin number -1. If time permits, we will say a few words about how the construction extends to links.