Veronica Arena : TBA
Luca Battistella : Vector bundles on Olsson fans
Logarithmic geometry is a language that combines piecewise-linear and algebraic geometry, particularly useful for tracking the combinatorics of compactifications and degenerations of algebraic varieties. Olsson's stack of logarithmic structures, and its charts provided by Artin cones, have played a fundamental role in moduli theory and enumerative geometry. Recent developments concerning stability, good moduli spaces, and logarithmic sheaf theory show the utility of considering Artin fans over a base, or Olsson fans. In joint work with Francesca Carocci and Jonathan Wise, we study their structure and vector bundles over them, generalising the theory of equivariant bundles on toric varieties. If time permits, I will discuss the relationship with Grassmannians and limit linear series that motivated our investigation.
Thomas Blomme : Correlated Gromov-Witten invariants & Multiple cover formula
Abelian surfaces are complex tori whose enumerative invariants seem to satisfy remarkable regularity properties. The computation of their reduced Gromov-Witten invariants in the case of primitive classes has already been well studied with many complete computations by Bryan-Oberdieck-Pandharipande-Yin. A few years ago, G. Oberdieck conjectured a multiple cover formula expressing in a very simple way the invariants for the non-primitive classes in terms of the primitive one. This would close the computation of GW invariants for abelian surfaces. In this second talk, we aim to explain how correlated invariants naturally show up in the decomposition formula for abelian surfaces, and how they allow to prove the multiple cover formula conjecture for many instances. This is joint work with F. Carocci.
Francesca Carocci : Correlated Gromov-Witten invariants & DR cycle formula
In this talk, we will talk about a geometric refinement for log Gromov -Witten invariants of P^1-bundles on smooth projective varieties, called correlated Gromov-Witten invariants, introduced in a joint work with T. Blomme. In order to compute them, we proved a correlated refinement of Pixton double-ramification cycle formula with target varieties. We will state the formula and try to give an idea of how it is obtained as an application of the Universal DR formula of Bae-Holmes-Pandharipande-Schmitt-Schwarz.
Aitor Iribar Lopez : TBA
Patrick Kenendy-Hunt : TBA
Navid Nabijou : TBA
Denis Nesterov : TBA
Sabrina Pauli : TBA
Aaron Pixton : TBA
Maximilian Schimpf : TBA
Pim Spelier : TBA
Calla Tschanz : From logarithmic Hilbert schemes to degenerations of hyperkähler varieties
In this talk, I will discuss my previous work on constructing explicit models of logarithmic Hilbert schemes. This relates to work or Li-Wu on expanded degenerations, Gulbrandsen-Halle-Hulek on degenerations of Hilbert schemes of points and Maulik-Ranganathan on logarithmic Hilbert schemes. The constructions I consider are local. I will then explain how we globalise these in joint work with Shafi and apply them to construct minimal type III degenerations of hyperkähler varieties, namely Hilbert schemes of points on K3 surfaces.
Angelina Zheng : TBA