July 14, 2024

There are no events currently scheduled for July 14th.

July 16, 2024

• 8:30 - 9:00 am EDT

  Arrive, sign in, get settled

  - 11th Floor Collaborative Space
• 9:00 - 10:00 am EDT

  Check in with TAs

  - 10th Floor Collaborative Space
• 10:00 - 10:30 am EDT

  Group Work

  Assigned Group Meeting Space
• 10:30 - 11:00 am EDT

  Break

  Coffee Break
• 11:00 - 11:15 am EDT

  Question of the Day

  - 10th Floor Collaborative Space
• 11:15 am - 12:00 pm EDT

  Group Work

  Assigned Group Meeting Space
• 12:00 - 1:30 pm EDT

  Lunch/Free Time
• 1:30 - 3:00 pm EDT

  Group Work

  Assigned Group Meeting Space
• 3:00 - 3:30 pm EDT

  Coffee Break

  10th Floor Collaborative Space
• 3:30 - 4:30 pm EDT

  Group Work / Writing Time

  Group Work - Assigned Group Meeting Space

• 9:30 - 10:15 am EDT

  Skein Lasagna Modules and Categorified Projectors

  11th Floor Lecture Hall

  • Speaker
  • Melissa Zhang, University of California, Davis

  • Session Chair
  • Miriam Kuzbary, Amherst College

  Abstract

  In 2018, Morrison, Walker, and Wedrich’s skein lasagna modules are 4-manifold invariants defined using Khovanov-Rozansky homology similarly to how skein modules for 3-manifolds are defined. In 2020, Manolescu and Neithalath developed a formula for computing this invariant for 2-handlebodies by defining an isomorphic object called cabled Khovanov-Rozansky homology; this is computed as a colimit of cables of the attaching link in the Kirby diagram of the 4-manifold.
  In joint work with Ian Sullivan, we lift the Manolescu-Neithalath construction to the level of Bar-Natan's tangles and cobordisms, and trade colimits of vector spaces for a homotopy colimit in Bar-Natan's category. As an application, we give a proof that the skein lasagna module of S2xS2 is trivial, confirming a conjecture of Manolescu. Our local techniques also allow for computations of the skein lasagna invariant for other 4-manifolds whose Kirby diagram contains a 0-framed unknot component. Our methods also allow us to relate the Rozansky-Willis invariant of links in S2xS1 to skein lasagna modules.
• 10:30 - 11:00 am EDT

  Coffee Break

  11th Floor Collaborative Space
• 11:00 - 11:45 am EDT

  Correction terms of branched double covers and symmetries of immersed curves​

  11th Floor Lecture Hall

  • Speaker
  • Biji Wong, Duke University

  • Session Chair
  • Miriam Kuzbary, Amherst College

  Abstract

  In this talk, we'll discuss recent work to use the immersed curves description of bordered Floer theory to study the d-invariants of branched double covers Sigma_2(L) of links L in the 3-sphere. We'll show that when L is a 2-component plumbing link and Sigma_2(L) is an L-space, then the spin d-invariants of Sigma_2(L) are determined by the signatures of L. This project is joint with J. Hanselman and M. Marengon.
• 12:00 - 2:00 pm EDT

  Problem Session in small groups over catered lunch

  Lunch/Free Time - 11th Floor Lecture Hall
• 2:00 - 2:45 pm EDT

  Detecting corks

  11th Floor Lecture Hall

  • Speaker
  • Abhishek Mallick, Rutgers University - New Brusnwick

  • Session Chair
  • Nicolas Petit, Loyola University Chicago

  Abstract

  Corks are fundamental to the study of exotic smooth structures on 4-manifolds. In this talk, I will describe how to detect corks and their usefulness. This is joint work with many collaborators over several projects.
• 3:00 - 3:30 pm EDT

  Coffee Break

  11th Floor Collaborative Space
• 3:30 - 4:15 pm EDT

  A topological model for the HOMFLY-PT polynomial

  11th Floor Lecture Hall

  • Speaker
  • Christine Ruey Shan Lee, Texas State University

  • Session Chair
  • Nicolas Petit, Loyola University Chicago

  Abstract

  A topological model for a knot invariant is a realization of the invariant as graded intersection pairings on coverings of configuration spaces. In this talk I will describe a topological model for the HOMFLY-PT polynomial. I plan to discuss the motivation from previous work by Lawrence and Bigelow giving topological models for the Jones and SL_n polynomials, and the construction, joint with Cristina Anghel, which uses a state sum formulation of the HOMFLY-PT polynomial to construct an intersection pairing on the configuration space of a Heegaard surface of the link.

July 17, 2024

• 8:55 - 9:00 am EDT

  Arrive, sign in, get settled

  - 11th Floor Collaborative Space
• 9:00 - 9:30 am EDT

  Check in with TAs

  - 10th Floor Collaborative Space
• 9:30 - 10:30 am EDT

  Group Work

  Assigned Group Meeting Space
• 10:30 - 11:00 am EDT

  Break

  Coffee Break - 10th Floor Collaborative Space
• 11:00 - 11:15 am EDT

  Question of the Day

  - 10th Floor Collaborative Space
• 11:15 am - 12:00 pm EDT

  Group Work

  Assigned Group Meeting Space
• 12:00 - 1:30 pm EDT

  Lunch/Free Time
• 1:30 - 3:30 pm EDT

  Group Work

  Assigned Group Meeting Space
• 3:00 - 3:30 pm EDT

  Coffee Break

  10th Floor Classroom
• 3:30 - 4:30 pm EDT

  Group Work/ Writing Time

  Group Work - Assigned Group Meeting Space

• 9:30 - 10:15 am EDT

  tba

  11th Floor Lecture Hall

  • Speaker
  • Inanc Baykur, University of Massachusetts Amherst

  • Session Chair
  • Orsola Capovilla-Searle, University of California, Davis
• 10:30 - 11:00 am EDT

  Coffee Break

  11th Floor Collaborative Space
• 11:00 - 11:45 am EDT

  TBA

  11th Floor Lecture Hall

  • Speaker
  • Siddhi Krishna, Columbia University

  • Session Chair
  • Orsola Capovilla-Searle, University of California, Davis
• 12:00 - 12:05 pm EDT

  Group Photo (Immediately After Talk)

  11th Floor Lecture Hall
• 12:05 - 2:00 pm EDT

  Lunch/Free Time
• 2:00 - 2:45 pm EDT

  Nonorientable broken Lefschetz fibrations

  11th Floor Lecture Hall

  • Speaker
  • Porter Morgan, University of Massachusetts Amherst

  • Session Chair
  • Marc Kegel, Humboldt-Universität zu Berlin

  Abstract

  Broken Lefschetz Fibrations (BLFs) are surjections from a 4-manifold to a sphere with only Lefschetz and indefinite fold singularities. Unlike Lefschetz fibrations, any generic map M^4\to S^2 is homotopic to a BLF. Among BLFs, a particularly nice subset is Simplified Broken Lefschetz Fibrations, which give an explicit handlebody decomposition of their source manifold. In this talk, we’ll review the basic topology of simplified BLFs for closed, smooth, nonorientable 4-manifolds. Then we’ll use simplified BLFs to construct an explicit embedding of nonorientable 4-manifolds into certain 6-manifolds.
• 3:00 - 3:30 pm EDT

  Coffee Break

  11th Floor Collaborative Space
• 3:00 - 4:30 pm EDT

  Designated collaboration/ work in groups time

  Group Work - 11th Floor Collaborative Space

July 18, 2024

• 8:30 - 9:00 am EDT

  Arrive, sign in, get settled

  - 11th Floor Collaborative Space
• 9:00 - 9:30 am EDT

  Check in with TAs

  - 10th Floor Collaborative Space
• 9:30 - 10:30 am EDT

  Group Work

  Assigned Group Meeting Space
• 10:30 - 11:00 am EDT

  Break

  Coffee Break
• 11:00 - 11:15 am EDT

  Question of the Day

  - 10th Floor Collaborative Space
• 11:15 am - 12:00 pm EDT

  Group Work

  Question of the Day
• 12:00 - 1:30 pm EDT

  Lunch/Free Time
• 1:30 - 3:00 pm EDT

  Group Work

  Assigned Group Meeting Space
• 3:00 - 3:30 pm EDT

  Coffee Break

  10th Floor Collaborative Space
• 3:30 - 4:30 pm EDT

  Group Work / Writing Time

  Group Work - Assigned Group Meeting Space

• 9:30 - 10:15 am EDT

  Characterizing and non-characterizing knots by 3-manifolds

  11th Floor Lecture Hall

  • Speaker
  • Marc Kegel, Humboldt-Universität zu Berlin

  • Session Chair
  • Siddhi Krishna, Columbia University

  Abstract

  From a knot K, we can build 3-manifolds by performing Dehn surgery on that knot. We will discuss some new results explaining in which sense the diffeomorphism types of these 3-manifolds characterize the isotopy class of the knot K. This talk is based on joint work with Abe-Weiss, Baker, Baker-McCoy, Casals-Etnyre, and Piccirillo.
• 10:30 - 11:00 am EDT

  Coffee Break

  11th Floor Collaborative Space
• 11:00 - 11:45 am EDT

  Contact surgery numbers

  11th Floor Lecture Hall

  • Speaker
  • Rima Chatterjee, University of Cologne

  • Session Chair
  • Marc Kegel, Humboldt-Universität zu Berlin

  Abstract

  A fundamental result in 3-dimensional contact topology due to Ding-Geiges tells us that any contact 3-manifold can be obtained via doing a surgery on a Legendrian link in the standard contact 3-sphere. So it's natural to ask how simple or complicated a surgery diagram could be for a particular contact manifold? Contact surgery number is a measure of this complexity. In this talk, I will define this notion of complexity and discuss some examples. This is joint work with Marc Kegel.
• 12:00 - 2:00 pm EDT

  Lunch/Free Time
• 2:00 - 2:45 pm EDT

  Exact Lagragian fillings of Legendrian links and Newton polytopes.

  11th Floor Lecture Hall

  • Speaker
  • Orsola Capovilla-Searle, University of California, Davis

  • Session Chair
  • Biji Wong, Duke University

  Abstract

  An important problem in contact topology is to understand Legendrian submanifolds; these submanifolds are always tangent to the plane field given by the contact structure. Legendrian links can also arise as the boundary of exact Lagrangian surfaces in the standard symplectic 4-ball. Such surfaces are called fillings of the link. In the last decade, our understanding of the moduli space of fillings for various families of Legendrians has greatly improved thanks to tools from sheaf theory, Floer theory and cluster algebras. I will talk about connections between fillings and Newton polytopes.
• 3:00 - 3:30 pm EDT

  Coffee Break

  11th Floor Collaborative Space
• 3:30 - 4:15 pm EDT

  TBA

  11th Floor Lecture Hall

  • Speaker
  • Angela Wu, Louisiana State University

  • Session Chair
  • Biji Wong, Duke University

July 19, 2024

• 8:30 - 9:00 am EDT

  Arrive, sign in, get settled

  - 11th Floor Collaborative Space
• 9:00 - 9:30 am EDT

  Check in with TAs

  - 10th Floor Collaborative Space
• 9:30 - 10:30 am EDT

  Group Work

  10th Floor Collaborative Space
• 10:30 - 11:00 am EDT

  Break

  Coffee Break
• 11:00 - 11:15 am EDT

  Question of the Day

  - 10th Floor Collaborative Space
• 11:15 am - 12:00 pm EDT

  Group Work

  Assigned Group Meeting Space
• 12:00 - 1:30 pm EDT

  Lunch/Free Time
• 1:30 - 3:00 pm EDT

  Group Work

  Assigned Group Meeting Space
• 3:00 - 3:30 pm EDT

  Coffee Break

  10th Floor Classroom
• 3:30 - 4:30 pm EDT

  Group Work/ Writing Time

  Group Work - Assigned Group Meeting Space
• 6:30 - 8:30 pm EDT

  Movie Night

  - 11th Floor Lecture Hall

• 9:30 - 10:15 am EDT

  Work in progress — a gauge-theoretic interpretation of the McKay correspondence

  11th Floor Lecture Hall

  • Speaker
  • Jiajun Yan, University of Virginia

  • Session Chair
  • Jonathan Johnson, Oklahoma State University

  Abstract

  Let Gamma be a finite subgroup of SU(2). The McKay correspondence states that the McKay quiver of Gamma is isomorphic to the graph of minimal resolution of C^2/Gamma. There are various proofs of the McKay correspondence coming from algebraic geometry and symplectic geometry which we will survey in the talk. Then, we will present an idea / work in progress of a new gauge-theoretic interpretation of the McKay correspondence. To do so, we will review a gauge-theoretic construction of the 4-dimensional hyperkähler ALE spaces for each of which the underlying topological space is the minimal resolution of C^2/Gamma. The main approach is to make use of an S^1-invariant Morse-Bott function arising from the gauge-theoretic construction by identifying its critical points with certain flat connections that induce representations of Gamma via holonomy representation. The idea is partially inspired by the Chern-Simons theory, and some tools from contact geometry also come into play.
• 10:30 - 11:00 am EDT

  Coffee Break

  11th Floor Collaborative Space
• 11:00 - 11:45 am EDT

  New quantum invariants from braiding Verma modules

  11th Floor Lecture Hall

  • Speaker
  • Sergei Gukov, Caltech

  • Session Chair
  • Jonathan Johnson, Oklahoma State University

  Abstract

  In this talk, I will describe recent construction of new link and 3-manifold invariants associated with Verma modules of $U_q (sl_N)$ at generic $q$. The resulting invariants can be combined into a Spin$^c$-decorated TQFT and have a nice property that, for links in general 3-manifolds, they have integer coefficients. In particular, they are expected to admit a categorification and, if time permits, I will outline various ingredients that may go into a construction of 3-manifold homology categorifying $U_q (sl_N)$ invariants at generic $q$.
• 12:00 - 2:00 pm EDT

  Lunch/Free Time

July 20, 2024

There are no events currently scheduled for July 20th.