This seminar is organized by Will Donovan, Penghui Li, Peng Shan. Welcome attend!

Upcoming talks

Date: Dec. 24th, Friday, 3:20-4:20 pm

Location: Ning Zhai W11, Yau MSC

Speaker: Marc Besson (BICMR, PKU)

Title: Affine Schubert varieties for twisted loop groups

Abstract: In this talk I will discuss the algebraic geometry of affine Schubert varieties and their T-fixed subschemes. In the untwisted types, Zhu used the geometry of the T-fixed subschemes to study the singularities of affine Schubert varieties and to provide a geometrization of the Frenkel-Kac-Segal isomorphism. I will discuss work (joint with J. Hong) where we prove a twisted analogue of these results. As a corollary we confirm a conjecture of Haines and Richarz on the smooth locus of twisted affine Schubert varieties.

Past talks

Date: Dec. 1st, Wed, 5:00-6:00 pm

Location: online

Zoom Meeting ID: 849 963 1368

Password: YMSC

Speaker: Navid Nabijou (Cambridge)

Title: Enumerative invariants of 3-fold flops: hyperplane arrangements and wall-crossing

Abstract: 3-fold flopping contractions form a fundamental building block of the higher-dimensional Minimal Model Program. They exhibit extremely rich geometry, which has been investigated by many people over the past half-century. I will present an elegant and visually-pleasing relationship between enumerative invariants of flopping contractions and certain hyperplane arrangements constructed combinatorially from root system data. I will discuss both Gopakumar-Vafa (GV) and Gromov-Witten (GW) invariants, explaining how these are related to one another and how they are encoded in finite and infinite arrangements, respectively. Finally, I will discuss wall-crossing: our combinatorial approach allows us to explicitly construct flops from root system data, leading to a new “direct” proof of the Crepant Transformation Conjecture, with a very explicit formulation. This is joint work with Michael Wemyss.

Date: Nov. 16th, Tuesday, 10:00-11:00 am

Location: online

Zoom Meeting ID: 849 963 1368

Password: YMSC

Speaker: Justin Campbell (Chicago)

Title: Affine Harish-Chandra bimodules and Steinberg-Whittaker localization

Abstract: This talk will be about my paper of the same title with Gurbir Dhillon. It is well-known that the center of the enveloping algebra of an affine Kac-Moody algebra at noncritical level is trivial. Nonetheless, its representation theory shares many features with that of a finite-dimensional semisimple Lie algebra, including a block decomposition of category O. We propose an analogue, for any affine Weyl group orbit, of the category of Kac-Moody representations with the corresponding "generalized central character." Namely, we consider the subcategory generated by the relevant Verma modules under the categorical loop group action. We also construct equivalences relating various categories of affine Harish-Chandra bimodules, Whittaker modules, and Whittaker D-modules on the loop group, generalizing known equivalences in the finite-dimensional case proved by Bernstein-Gelfand, Beilinson-Bernstein, Milicic-Soergel, and others.

Date: Nov. 12th, Friday, 2:40-3:40 pm

Location: online

Zoom Meeting ID: 388 528 9728

Passcode: BIMSA

Speaker: Michael McBreen (CUHK)

Title: Deletion and contraction for Hausel-Proudfoot spaces

Abstract: Dolbeault hypertoric manifolds are hyperkahler integrable systems generalizing the Ooguri-Vafa space. They approximate the Hitchin fibration near a totally degenerate nodal spectral curve. On the other hand, Betti hypertoric varieties are smooth affine varieties parametrizing microlocal sheaves on the same nodal spectral curve. I will review joint work with Zsuzsanna Dansco and Vivek Shende (arXiv:1910.00979) which constructs a diffeomorphism between the Dolbeault and Betti hypertorics, and proves that it intertwines the perverse and weight filtrations on their cohomologies. I will describe our main tool : deletion-contraction sequences arising from either smoothing a node of the spectral curve or separating its branches. I will discuss some more recent developments and open questions.

Date: Nov. 5th, Friday, 4:00-5:00 pm

Location: online, also displayed in Lecture Hall, 3rd floor, Jin Chun Yuan West Building, Yau MSC

Zoom Meeting ID: 8499631368

Password: YMSC

Speaker: Jens Niklas Eberhardt (Bonn)

Title: Motivic Springer Theory

Abstract: Algebras and their representations can often be constructed geometrically in terms of convolution of cycles.

For example, the Springer correspondence describes how irreducible representations of a Weyl group can be realised in terms of a convolution action on the vector spaces of irreducible components of Springer fibers. Similar situations yield the affine Hecke algebra, quiver Hecke algebra (KLR algebra), quiver Schur algebra or Soergel bimodules.

In this spirit, we show that these algebras and their representations can be realised in terms of certain equivariant motivic sheaves called Springer motives.

On our way, we will discuss weight structures and their applications to motives as well as Koszul and Ringel duality.

This is joint work with Catharina Stroppel.

Date: Oct. 29th, Friday, 3:20-4:20 pm

Location: Ning Zhai W11, Yau MSC

Speaker: 迟敬人 Jingren Chi (Morningside Center)

Title: Local and global approach to geometry of affine Springer fibers

Abstract: In this talk, I will first review the classical works of Kazhdan-Lusztig and Bezrukavnikov on basic geometric properties of affine Springer fibers (mainly the dimension formula and equi-dimensionality properties) and explain certain generalizations to the setting of mixed-characteristic local fields. Then I will explain an alternative approach to some of these results using global geometry of the Hitchin fibration.

Date: Oct. 26th, Tuesday, 9:00-10:00 am

Zoom Meeting ID: 8499631368

Password: YMSC

Speaker: Joel Kamnitzer (Toronto)

Title: Symplectic duality and (generalized) affine Grassmannian slices

Abstract: Under the geometric Satake equivalence, slices in the affine Grassmannian give a geometric incarnation of dominant weight spaces in representations of reductive groups. These affine Grassmannian slices are quantized by algebras known as truncated shifted Yangians. From this perspective, we expect to categorify these weight spaces using category O for these truncated shifted Yangians.

The slices in the affine Grassmannian and truncated shifted Yangians can also be defined as special cases of the Coulomb branch construction of Braverman-Finkelberg-Nakajima. From this perspective, we find many insights. First, we can generalize affine Grassmannian slices to the case of non-dominant weights and arbitrary symmetric Kac-Moody Lie algebras. Second, we establish a link with modules for KLRW algebras. Finally, we defined a categorical g-action on the categories O, using Hamiltonian reduction.

Date: Oct. 15th, Friday,3:20-4:20 pm

Speaker: Dongyu Wu 吴冬羽 (BIMSA)

Location: Ning Zhai W11, Yau MSC

Title: The Stable Limit DAHA and the Double Dyck Path Algebra

Abstract:The double Dyck path algebra (DDPA) is the key algebraic structure that governs the phenomena behind the shuffle and rational shuffle conjectures. The structure emerged from their considerations and computational experiments while attacking the conjecture. Nevertheless, the DDPA bears some resemblance to the structure of a type A double affine Hecke algebra (DAHA). I will explain how the DDPA emerges naturally and canonically (as a stable limit) from the family of GLn DAHAs.

Date: Oct. 8th, Friday, 10:00-11:00 am

Speaker: 李鹏程 Pengcheng Li (PKU)

Location: Lecture Hall, 3rd floor, Jin Chun Yuan West Building, Yau MSC

Title:Categorical actions on representations of finite orthogonal groups of odd dimension

Abstract:Using Harish-Chandra induction and restriction, we construct a categorical action of a Kac-Moody algebra on the category of isolated representations of finite orthogonal groups of odd dimension in non-defining characteristic. We also prove that isolated Rouquier blocks at linear primes are derived equivalent to their Brauer correspondents. Using the reduction theorem of Bonnafé-Dat-Rouquier, we prove that Broué's abelian defect group conjecture is true for the groups SO_{2n+1}(q) with odd q at odd linear primes. This is a joint work with Yanjun Liu.

Date: Sep. 29th,Wednesday, 4:00-5:00 pm

Speaker: Merlin Christ (Hamburg)

Zoom Meeting ID：849 963 1368

Passcode：YMSC

Title:An introduction to perverse schobers on surfaces

Abstract:Perverse schobers are a conjectured categorification of perverse sheaves. They are expected to describe Fukaya categories "with coefficients" and may further allow the study of their categories of global sections via local-to-global principles. In the case of perverse schobers on surfaces, their theory has made much progress. The main goal of the talk is to discuss a new framework for the description of perverse schobers on surfaces, based on ribbon graphs.

Date: Sep. 24th, Friday, 2:40-3:40 pm

Location: Conference Room 3, Jin Chun Yuan West Building, Yau MSC

Speaker: 苏桃 Tao Su (Yau MSC)

Title: Dual boundary complexes of Betti moduli spaces

Abstract: The homotopy type conjecture is part of the geometric P=W conjecture in non-abelian Hodge theory. It states that the smooth Betti moduli space of complex dimension d over a general punctured Riemann surface, has dual boundary complex homotopy equivalent to a sphere of dimension d-1. In this talk, via a microlocal/contact geometric perspective, I will explain a proof of the conjecture for a class of rank n wild character varieties over the two sphere with one puncture, associated to any “Stokes Legendrian knot” defined by a n-strand positive braid.

Date: June 4, 2021, 3:20 PM to 4:20 PM

Zoom Meeting ID：3610386975

Password：BIMSA

Speaker: Quoc Ho (IST Austria)

Title: Factorization homology and the arithmetic and topology of configuration spaces

Abstract: The last decade has witnessed many interesting interplays between homological/representation stability phenomena and questions in arithmetic statistics. In this talk, I will show how the algebro-geometric version of factorization homology provides a unifying framework for studying these phenomena in the case of configuration spaces. In particular, I will explain the relationship between various zeta values coming out of point-counts on configuration spaces and homological stability phenomena exhibited by these spaces, answering questions of Farb--Wolfson--Wood. Time permitting, I will explain how these ideas can be further developed to study representation stability for ordered configuration spaces.

Date: May 14, 2021, 3:20 PM to 4:20 PM

Speaker: Lin Xun

Title:Noncommutative Hodge conjecture

Abstract: I will propose a rational Hodge conjecture for small smooth proper dg categories. The Hodge conjecture of Per_{dg}(X) is equivalent to the rational Hodge conjecture of projective smooth variety X. The Hodge conjecture is additive to the semi-orthogonal decompositions. Using semi-orthogonal decompositions, especially from HPD, we obtain some interesting examples. Motivated from these examples, we expect that the dual statement of Hodge conjecture for linear sections of projective dual varieties can be proved by geometric methods. In this talk, there will be more questions than theorems.

Date: May 4, 2021, 3:20 PM to 4:20 PM

Zoom Meeting ID：3610386975

Password：BIMSA

Speaker: Syu Kato (Kyoto University)

Title: Categorification of DAHA and Macdonald polynomials

Abstract: We exhibit a categorification of the double affine Hecke algebra (DAHA) associated with an untwisted affine root system (except for type $G$) and its polynomial representation by using the (derived) module category of some Lie superalgebras associated to the root system. This particularly yields a categorification of symmetric Macdonald polynomials. This is a joint work with Anton Khoroshkin and Ievgen Makedonskyi.

Date: Apr 23, 2021, 3:20 PM to 4:20 PM

Place: Ning Zhai W11

Speaker: 李鹏辉 Penghui Li

Title：Eisenstein series via factorization homology of Hecke categories.

Abstract: Motivated by the spectral gluing patterns in the Betti Langlands program. We define the E_2 Hecke category as the category of coherent sheaves on moduli stacks of G-bundles on a disk with parabolic reduction on the boundary circle. We prove that its factorization homology is the (enhanced) Eisenstein series category. Our results naturally extend previous known computations of Ben-Zvi--Francis--Nadler and Beraldo. This is a joint work with Quoc Ho.

Date: Apr 16, 2021, 3:20 PM to 4:20 PM

Zoom Meeting ID：3610386975

Password：BIMSA

Speaker: Tatsuki Kuwagaki

Title：Sheaf quantization and irregular singularity

Abstract：Constructible sheaves have played an important role in the development of representation theory. The topic of this talk is sheaf quantization, which is a geometric refinement of the notion of constructible sheaf (“constructible sheaf (or local system) of 21st century”). I will give an introduction to sheaf quantization and discuss how it is difficult (at present) to construct it in general and its relation to irregular singularities.

Date: Apr 1, 2021, 8:00 AM to 9:00 AM

Place: Ning Zhai W11

Zoom Meeting ID：3610386975

Password：BIMSA

Speaker: Nicolas Addington

Title：A categorical sl_2 action on some moduli spaces of sheaves

Abstract：We study certain sequences of moduli spaces of sheaves on K3 surfaces, building on work of Markman, Yoshioka, and Nakajima. We show that these sequences can be given the structure of a geometric categorical sl_2 action in the sense of Cautis, Kamnitzer, and Licata. As a corollary, we get an equivalence between derived categories of some moduli spaces that are birational via stratified Mukai flops. I'll spend most of my time on a nice example. This is joint with my student Ryan Takahashi.

Date: Mar. 24th, Wednesday, 8:00-9:00 am

Zoom Meeting ID：3610386975

Password：BIMSA

Speaker: David Nadler (UC Berkeley)

Title: Hecke bubbling in Betti Geometric Langlands

Abstract: I'll discuss joint work with Zhiwei Yun that reformulates Hecke actions in terms of bubbling projective lines at marked points of curves. Our motivation is to relate automorphic categories for smooth curves and their nodal degenerations.

Date: Mar. 12th, 2021

Place: Ning Zhai W11

Speaker: 陈伟彦 CHEN Weiyan

Title： Topology and Arithmetic Statistics

Abstract： Topology studies the shape of spaces. Arithmetic statistics studies the behavior of random algebraic objects such as integers and polynomials. I will talk about a circle of ideas connecting these two seemingly unrelated areas. To illuminate the connection, I will focus on two concrete examples: (1) the Burau representation and superelliptic curves, and (2) cohomology of the space of multivariate irreducible polynomials.

Date: Mar. 5th

Speaker: Lin Chen 陈麟 (Harvard University)

Title: nearby cycles and long intertwining functor

Abstract: Let G be a reductive group and (N,N^-) be the unipotent radicals of a pair of opposite Borel subgroups (B,B^-). The well-known long intertwining functor is an equivalence from the category Shv(Fl)^N of N-equivariant sheaves on the flag variety Fl to the similar category Shv(Fl)^{N^-} for N^-. We will interpret this equivalence as a duality between the above two categories, and explain that the unit object for this duality can be obtained as nearby cycles along a Vinberg-degeneration of Fl. We also describe an affine analogue of this result and explain its relation with Bernstein’s second adjointness.

iCal subscription:

webcal://p44-caldav.icloud.com/published/2/MTAyNjc3ODU1NDUxMDI2N6u0UZbdquLXYBj0BHqibhq2tnAyUQL92ZssPrsxYupRMNYLbinA3gkvQW2gWiMfGim4dkQcHMpsiPnhEkftcUc