Mathematics on the Crossroad of Centuries

Europe/Paris
Centre de conférences Marilyn et James Simons (Le Bois-Marie)

Centre de conférences Marilyn et James Simons

Le Bois-Marie

35, route de Chartres 91440 Bures-sur-Yvette
Description

Mathematics on the Crossroad of Centuries    
A Conference in Honor of Maxim Kontsevich's 60th Birthday    
September 16-20 2024    
at IHES - Marilyn and James Simons Conference Center    
How to get to IHES



The  work of Maxim Kontsevich, Permanent Professor at IHES since 1995, and holder of the AXA-IHES Chair for Mathematics, has been a unique combination of spectacular ideas in algebra, combinatorics, topology, algebraic geometry, and theoretical physics. 

No other mathematician has played such a pivotal role in enhancing the interaction of mathematics and physics on the crossroad of 20th and 21st centuries. 

In this week-long meeting we will be celebrating the 60th birthday of Maxim Kontsevich and his profound influence on mathematics.

Registrations are closed but talks can be followed online on Zoom: 
https://us02web.zoom.us/webinar/register/WN_d2PEiUS9Q9imvBtm4Y0Wzg

Speakers:

  • Mohammed Abouzaid, Stanford University
  • Mina Aganagić, UC Berkeley
  • Jørgen Andersen, Odense University
  • Denis Auroux, Harvard University 
  • Tom Bridgeland, University of Sheffield 
  • Vladimir Drinfeld, University of Chicago 
  • Pavel Etingof, MIT 
  • Kenji Fukaya, SCGP 
  • Davide Gaiotto, Perimeter Institute
  • Alexander Goncharov, Yale University 
  • Fabian Haiden, Syddansk Odense University 
  • Mikhail Kapranov, IPMU 
  • Curtis McMullen, Harvard University 
  • Takuro Mochizuki, RIMS, Kyoto University 
  • Alexander Odesskii, Brock University 
  • Tony Pantev, University of Pennsylvania 
  • John Pardon, SCGP 
  • Yan Soibelman, Kansas State Univ. & IHES 
  • Yuri Tschinkel, SCGP & New York University 
  • Lauren Williams, Harvard University 
  • Don Zagier, MPI Bonn & ICTP

Organizing committee    
Denis Auroux, Harvard University, Ludmil Katzarkov, University of Miami, Tony Pantev, University of Pennsylvania, Yan Soibelman, Kansas State Univ. & IHES, Yuri Tschinkel, SCGP & New York University

 

Participants
  • Aakash Gopinath
  • Abdoul Salam DIALLO
  • Ahmed Abbes
  • Alex Takeda
  • Alexander Petkov
  • Amir Mostaed
  • Angel David RIOS ORTIZ
  • Anton Zorich
  • Anya Nordskova
  • Arthemy Kiselev
  • Asbjorn Nordentoft
  • Bernhard Keller
  • Bertrand Eynard
  • Bogdan Simeonov
  • Bruno VALLETTE
  • Campbell Wheeler
  • Chenjiayue Qi
  • Chi Hong Chow
  • Christopher JUDGE
  • Daniel Kriz
  • Daniil Mamaev
  • Dimitri Gurevich
  • Dmitri Panov
  • Dmitry Kubrak
  • Edmund Heng
  • Elba Garcia Failde
  • Emanuel Reinecke
  • Eric Perlmutter
  • Ernesto Lupercio
  • Federico Zerbini
  • Felix Küng
  • Florian Millo
  • Ghizlane Kettani
  • Gleb Koshevoy
  • GREGORY KORCHEMSKY
  • Gérard Duchamp
  • HAOYU WANG
  • Himal Rathnakumara
  • Irene Ren
  • Jakob Ulmer
  • Jiahao Bi
  • Jiangfan Yuan
  • Jiasheng Lin
  • Karol Penson
  • Kyungmin Rho
  • Leonardo Cavenaghi
  • Léo Gratien
  • Malik Benkelfate
  • Martin Andler
  • Masahiro Futaki
  • Masanobu KANEKO
  • Maximilian Schwick
  • Mehdi BELHAMITI
  • Menelaos Zikidis
  • Merlin Christ
  • Miantao Liu
  • Motohico Mulase
  • Nadya Shirokova
  • Nathaniel Bottman
  • Nicolas Seroux
  • Nikita Markarian
  • Noemie COMBE
  • Nuno Romão
  • Ofer Gabber
  • Olivia Dumitrescu
  • Oscar Garcia-Prada
  • Pranav Pandit
  • Qianyu Hao
  • Qixiang Wang
  • Ramanujan Santharoubane
  • Raphael Picovschi
  • Ren Muze
  • Ricardo BURING
  • Ricardo Canesin
  • Shaowu Zhang
  • simon barazer
  • Soichiro Uemura
  • Takashi Ono
  • Velichka Milousheva
  • Veronica Fantini
  • Vincent Siebler
  • Vladimir Roubtsov
  • wenhao zhu
  • Xiaohan YAN
  • Yao Xiao
  • Yu Wang
  • Yuhao Xue
  • Yunshu Zhu
  • Zhe Sun
  • Zhenhui Ding
Contact : Elisabeth Jasserand
    • 9:15 AM
      Registration and welcome coffee
    • 1
      Introductory speech by Jean-Pierre Bourguignon
    • 2
      Some Applications of Non-Abelian Hodge Theory

      We shall discuss ongoing investigations about some applications of non-abelian Hodge theory to the study of meromorphic flat bundles and more general holonomic D-modules, inspired by Kontsevich. The plan is as follows. First, we discuss a generalization of Barannikov-Kontsevich theorem about twisted de Rham cohomology. Then, after reviewing irregular Hodge filtration which was motivated by the study of Kontsevich complexes, we explain its application to an evidence for a conjecture of Kontsevich about cohomologically rigid holonomic D-modules. We would also like to discuss a boundedness of families of some families of meromorphic flat bundles.

      Speaker: Takuro Mochizuki (RIMS, Kyoto University)
    • 11:00 AM
      Coffee break
    • 3
      Geometric Quantization of General Kähler Manifolds

      We will consider Geometric Quantization on general Kähler phase spaces and propose a program for compatible constructions of the quantization of functions, the Hilbert space structure, and the dependence on the choice of the Kähler structure (generalized Hitchin connection), fixing only the underlying symplectic manifold and a prequantum line bundle. We will in particular see explicitly how the curvature of the phase space modifies the quantization.

      Speaker: Jørgen E. Andersen (Odense University)
    • 12:30 PM
      Lunch
    • 4
      Exponential Volumes in Geometry and Representation Theory

      Let S be a topological surface with holes. The moduli space parametrising hyperbolic structures on S with geodesic boundary, and a given set L of lengths of boundary circles carries the Weil-Peterson volume form. Its volume is finite. Maryam Mirzakhani proved remarkable recursion formulas for these volumes, related to several areas of Mathematics. In particular the volumes are polynomials in L. Their leading coefficients are the volumes studied by Maxim Kontsevich in his proof of Witten's conjecture.

      However for a surface P with polygonal boundary, e.g. just a polygon, similar volumes are infinite. We consider a variant of these moduli spaces, and show that they carry a canonical exponential volume form. We prove that exponential volumes are finite, and satisfies unfolding formulas generalizing Mirzakhani's recursions.

      There is a generalization of these moduli spaces for any split simple real Lie group G, with canonical exponential volume forms. When the modular group of the surface P is finite, the exponential volumes are finite for any G. We show that when P are polygons, they can be used to define a commutative algebra of positive Whittaker functions for the group G.

      We define the tropical limits of the exponential volumes.
      The tropical limits for surfaces S with holes and SL(2) lead to the volumes studied by Kontsevich in his proof of Witten's conjecture.
      The tropical limits of the algebra of positive Whittaker functions for any group G give the algebra of spherical functions for the group G(C).

      A part of the talk is based on the joint work with Zhe Sun.

      Speaker: Alexander Goncharov (Yale University)
    • 3:00 PM
      Coffee break
    • 5
      Homological Mirror Symmetry and Quantum Link Invariants

      There is a new family of homological mirror pairs, for which homological mirror symmetry can be understood as explicitly as in the simplest known examples. They categorify braid group representation coming from quantum groups. One application is to categorification of quantum link invariants.

      Speaker: Mina Aganagić (UC Berkeley)
    • 9:30 AM
      Welcome Coffee
    • 6
      Perverse Sheaves and Resurgence

      The Borel summation procedure, common in resurgence theory, translates irregular behavior governed by asymptotic series and Stokes phenomena, in terms of multivalued functions in the Borel plane, which can be studied via perverse sheaves and their generalizations. The talk proposes a framework for resurgence based on perverse sheaves which are algebras with respect to additive convolution. The singularity structure of a perverse sheaf on C is given by its spaces of vanishing cycles and transport maps between them along various paths. The concept of alien derivatives adapts naturally to this context. An algebra with respect to convolution gives, after Fourier transform, an algebra with respect to tensor product, so its Stokes matrices are algebra automorphisms, i.e., in case of a commutative algebra, coordinate changes. Joint work in progress with Y. Soibelman.

      Speaker: Mikhail Kapranov (IPMU)
    • 11:00 AM
      Coffee break
    • 7
      Motivic Invariants of Moduli of Irregular Parabolic Higgs Bundles and Bundles with Connection

      Motivic integration was introduced by Maxim Kontsevich in 1995.
      About 2007 in the joint work with Maxim, and based on the ideas of motivic integration, we introduced the notion of motivic Donaldson-Thomas invariants of a 3-dimensional Calabi-Yau category endowed with stability condition.

      In my talk I will overview how those ideas were used in the joint project with Roman Fedorov and Alexander Soibelman. We computed explicitly motivic Donaldson-Thomas invariants of the moduli stacks of semistable irregular parabolic Higgs bundles and bundles with connection on a smooth projective curve. Here the words "irregular parabolic" mean that the Higgs field and the connection can have poles of arbitrary order at the fixed points, and their "irregular parts" preserve flags of given types attached to the points.

      Speaker: Yan Soibelman (Kansas State University & IHES)
    • 12:30 PM
      Lunch
    • 8
      Birational and Singularity Invariants from nc Hodge Theory

      I will explain how a natural amalgam of classical Hodge theory with the nc Hodge structures arising from Gromov-Witten theory gives rise to new additive invariants of smooth projective varieties called Hodge atoms. Combined with Iritani's blow-up formula, Hodge atoms provide obstructions to birational equivalence and novel invariants of singularities. I will discuss applications to the Lüroth rationality problem and singularity theory. This is a joint work with L.Katzarkov, M.Kontsevich, and T.Y.Yu.

      Speaker: Tony Pantev (University of Pennsylvania)
    • 3:00 PM
      Coffee break
    • 9
      Combinatorics and Geometry of the Amplituhedron

      The amplituhedron is a geometric object introduced by Arkani-Hamed and Trnka to compute scattering amplitudes in N=4 super Yang Mills theory. It generalizes interesting objects such as cyclic polytopes and the positive Grassmannian. It has connections to tropical geometry, cluster algebras, and combinatorics (plane partitions, Catalan numbers). I’ll give a gentle introduction to the amplituhedron, then survey some recent progress on some of the main conjectures about the amplituhedron: the Magic Number Conjecture, the BCFW tiling conjecture, and the Cluster Adjacency conjecture.

      Speaker: Lauren Williams (Harvard University)
    • 9:30 AM
      Welcome Coffee
    • 10
      $A$ Infinity Functor in Symplectic Geometry and Gauge Theory (remote)

      I want to explain several works in progress to use the notion of representability of $A$ infinity functor in the study of Floer theory in symplectic geometry and gauge theory.

      Speaker: Kenji Fukaya (SCGP)
    • 11:00 AM
      Coffee break
    • 11
      Universally Counting Curves in Calabi-Yau Threefolds

      Enumerating curves in algebraic varieties traditionally involves choosing a compactification of the space of smooth embedded curves in the variety. There are many such compactifications, hence many different enumerative invariants. I will propose a "universal" (very tautological) enumerative invariant which takes values in a certain "Grothendieck group of 1-cycles". It is often the case with such "universal" constructions that the resulting Grothendieck group is essentially uncomputable. But in this case, the cluster formalism of Ionel and Parker shows that, in the case of threefolds with nef anticanonical bundle, this Grothendieck group is freely generated by local curves. This reduces the MNOP conjecture (in the case of nef anticanonical bundle and primary insertions) to the case of local curves, where it is already known due to work of Bryan--Pandharipande and Okounkov--Pandharipande.

      Speaker: John Pardon (SCGP)
    • 12:30 PM
      Lunch
    • 12
      An Update on SYZ Mirror Symmetry and Family Floer Theory

      The Strominger-Yau-Zaslow approach to homological mirror symmetry starts from a Lagrangian torus fibration on the complement of an anticanonical divisor, and constructs the mirror as a moduli space of weakly unobstructed objects of the Fukaya category supported on the fibers. However, in the presence of holomorphic discs of negative Maslov index, the geometry of the mirror may be deformed beyond the familiar world of Landau-Ginzburg models. We propose a Morse-theoretic construction of the Fukaya-Floer algebra of a family of Lagrangian tori, which recovers a (suitably deformed) Cech model for the algebra of polyvector fields on the mirror, as well as a functor from Lagrangian sections of the SYZ fibration to modules over this algebra.

      Speaker: Denis Auroux (Harvard University)
    • 3:00 PM
      Coffee break
    • 13
      Holomorphic-Topological Twists and their Applications

      We review the holomorphic-topological twist of supersymmetric quantum field theories and some of their mathematical properties and applications. These include some general formality-like results or lack thereof, a discussion of categorical wall-crossing in four dimensional gauge theories and a categorical approach to the 't Hooft expansion.

      Speaker: Davide Gaiotto (Perimeter Institute)
    • 9:00 AM
      Welcome Coffee
    • 14
      Modular Forms and Differential Equations

      The theory of automorphic forms originated in the late 19th and early 20th century (works of Klein, Fricke, Poincaré and many others) from the study of differential equations, but this aspect has become somewhat forgotten in the course of the years. In the lecture, I will talk about the many connections that exist between modular forms and differential equations of various types, especially linear (like the ones used in Apéry's famous proof of the irrationality of $\zeta(2)$ and $\zeta(3)$, or the "modular linear differential equations" that have become important in conformal field theory and the theory of vertex operator algebras) , but also non-linear. The latter include the so-called Chazy differential equation occurring in the theory of Painlevé equations and also various operators arising from the theory of Frobenius manifolds. I will talk about some of these connections and their applications.

      Speaker: Don Zagier (MPI Bonn & ICTP)
    • 10:30 AM
      Coffee break
    • 15
      Prospects for Spectral Mirror Symmetry

      Fukaya categories are constructed from moduli spaces of discs of virtual dimension 0 and 1. The higher dimensional moduli spaces can in principle be used to define variants the Fukaya category which have coefficients in spectral rings, lifting the current construction over discrete rings. However, outside the setting of exact symplectic manifolds, the problem of curvature arises, and one needs to resolve the anomaly problem without appealing to the tools of ordinary algebra. I will discuss joint work with Blumberg on formulating this generalisation, with McLean and Smith on showing that Lagrangian Floer theory fits within this new framework, and with Bottman on Floer-theoretic constructions that yield mirror varieties in this setting.

      Speaker: Mohammed Abouzaid (Stanford University)
    • 12:00 PM
      Lunch
    • 16
      Moduli Spaces of Points on the Projective Line and Other Varieties with Many Symmetries

      I will discuss several recent results and constructions in equivariant birational geometry.

      Speaker: Yuri Tschinkel (SCGP & New York University)
    • 2:30 PM
      Coffee break
    • 17
      Periodic pencils of flat connections and their $p$-curvature

      A periodic pencil of flat connections on a smooth algebraic variety $X$ is a linear family of flat connections $\nabla(s_1,...,s_n)=d-\sum_{i=1}^r\sum_{j=1}^ns_jB_{ij}dx_i$, where $\lbrace x_i\rbrace$ are local coordinates on $X$ and $B_{ij}: X\to {\rm Mat}_N$ are matrix-valued regular functions. A pencil is periodic if it is generically invariant under the shifts $s_j\mapsto s_j+1$ up to isomorphism. I will explain that periodic pencils have many remarkable properties, and there are many interesting examples of them, e.g. Knizhnik-Zamolodchikov, Dunkl, Casimir connections and equivariant quantum connections for conical symplectic resolutions with finitely many torus fixed points. I will also explain that in characteristic $p$, the $p$-curvature operators $\lbrace C_i,1\le i\le r\rbrace$ of a periodic pencil $\nabla$ are isospectral to the commuting endomorphisms $C_i^*:=\sum_{j=1}^n (s_j-s_j^p)B_{ij}^{(1)}$, where $B_{ij}^{(1)}$ is the Frobenius twist of $B_{ij}$. This allows us to compute the eigenvalues of the $p$-curvature for the above examples, and also to show that a periodic pencil of connections always has regular singularites. This is joint work with Alexander Varchenko.

      Speaker: Pavel Etingof (MIT)
    • 4:00 PM
      Coffee break
    • 18
      Shimurian Analogs of Barsotti-Tate Groups (remote)

      I will first recall Grothendieck's notion of n-truncated Barsotti-Tate group. Such groups form an algebraic stack over the integers. The problem is to give an illuminating description of its reductions modulo powers of p. A related problem is to construct analogs of these reductions related to general Shimura varieties with good reduction at p. Some time ago I formulated conjectures which address these problems. The conjectures have been proved by Z.Gardner, K.Madapusi, and A.Mathew. In particular, they developed a modern version of Dieudonné theory.

      Speaker: Vladimir Drinfeld (University of Chicago)
    • 9:30 AM
      Welcome Coffee
    • 19
      Geometry from Donaldson-Thomas invariants

      Our aim is to use the DT invariants to of a CY3 triangulated category to define a geometric structure on the space of stability conditions. So far we only know how to do this in a few simple examples. In the talk I will describe the expected geometry, which involves a hyperkahler structure, and discuss the main class of examples, which are some kind of complexified Hitchin systems.

      Speaker: Tom Bridgeland (University of Sheffield)
    • 11:00 AM
      Coffee break
    • 20
      Counting in Calabi-Yau Categories

      I will discuss a replacement for homotopy cardinality in situations where it is a priori ill-defined, including Z/2-graded dg-categories. A key ingredient are Calabi-Yau structures and their relative generalizations. As an application we obtain a Hall algebra for many pre-triangulated dg-categories for which it was previously undefined. Another application is the proof of a conjecture of Ng-Rutherford-Shende-Sivek expressing the ruling polynomial of a Z/2m-graded Legendrian knot (which is part of the HOMFLY polynomial if m=1) in terms of the homotopy cardinality of its augmentation category. All this is joint work with Mikhail Gorsky.

      Speaker: Fabian Haiden (Syddansk Odense University)
    • 12:30 PM
      Lunch
    • 21
      Billiards, Arithmetic and Hodge Theory

      What are the slopes of periodic billiard paths in a regular polygon? We will connect this question and others to:
      - cusps of thin groups,
      - curves on Hilbert modular varieties,
      - heights from Jacobians with real multiplication, and
      - a spectral gap for the Galois orbits of triangles.

      Along the way we will encounter issues of chaos and decidability, first appearing in polygons with 7 and 12 sides.

      Speaker: Curtis McMullen (Harvard University)
    • 3:00 PM
      Coffee break
    • 22
      Noncommutative Elliptic Poisson Structures on Projective Spaces

      We review noncommutative Poisson structures on affine and projective spaces over ${\mathbb C}$. This part of the talk is based on ideas of Maxim Kontsevich from his paper "Formal non-commutative symplectic geometry". We also construct a class of examples of noncommutative Poisson structures on ${\mathbb C} P^{n-1}$ for $n>2$. These noncommutative Poisson structures depend on a modular parameter $\tau\in{\mathbb C}$ and an additional descrete parameter $k\in{\mathbb Z}$, where $1 \leq k < n$ and $k,n$ are coprime. The abelianization of these Poisson structures can be lifted to the quadratic elliptic Poisson algebras $q_{n,k}(\tau)$. This talk is based on a joint paper with Vladimir Sokolov.

      Speaker: Alexander Odesskii (Brock University)