Claremont Topology Seminar

Founded 1989

The Claremont Topology Seminar meets on Tuesday's from 3:00-4:00 pm in Millikan 2099, Pomona College. Millikan is located on the NE corner of College Avenue and 6th Street. Following the talk we go for coffee/tea in downtown Claremont. Sometimes we meet a little later and then go to dinner. (Look for special times on the calendar.) Click here for a map of the Pomona Campus.

To reach Pomona College from the 10 freeway, exit at Indian Hill, go north, turn right (east) on 6th street and then turn left (north) on College. To reach Pomona College from the 210 freeway, if traveling East, exit at Towne Avenue, turn right (south) on Towne, turn left (east) on Foothill Blvd, and turn right (south) onto College Avenue. If traveling West on the 210 freeway, exit at Baseline/Padua, turn right (west) onto Baseline, turn left (south) onto Padua at the first light, turn right (west) onto Foothill Blvd at the third light, turn left (south) onto College Avenue.

Parking on College Avenue is free.

For more information about the Seminar, or to suggest speakers, contact Jim Hoste , Dave Bachman , Sam Nelson , Erica Flapan or Vin de Silva.

2015-16 Schedule

Fall, 2015

special days, times or locations are in red

Date Speaker Title and Abstract

Sept 8

3:00 pm

Organizational Meeting Meet at Some Crust Bakery for organizational meeting.

Sept 15

3:00 pm

Jim Hoste

Pitzer College

Title: Involutory quandles of Montesinos Links

I will show how to compute the involutory quandle of the (1/2, 1/2, p/q;e)-Montesinos links and discuss some of he properties of these quandles. This is part of a larger project to classify all links with finite n-quandles. This is joint work with Patrick Shanahan.


Sept 22

3:00 pm

Sam Nelson

Claremnt McKenna College

Title: Biquandle brackets

Abstract: Given a finite biquandle X and a commutative ring with identity R, we define an algebraic structure known as a biquandle bracket. Biquandle brackets can be used to define a family of knot and link invariants known as quantum enhancements which include biquandle cocycle invariants and skein polynomials such as the Alexander, Jones and HOMFLYpt polynomials as special cases. As an application we will see a new skein invariant which is not determined by the knot group, the knot quandle or the HOMFLYpt polynomial.


Sept 29

3:00 pm

Satyan Devadoss

Williams College

Title: Origami Folding and Evolutionary Trees

Abstract: In the past 25 years, origami has seen a tremendous explosion, in the arts, the sciences, and in technology. The mathematical theory of origami, in many ways, is at its infancy. There is a simple relationship between origami folds and geometric trees, obtained simply by looking at the crease lines of a piece of folded polygonal paper. In genetics, such trees play an important role in capturing the evolutionary process of species. We try to show a natural map between these worlds, of spaces of polygons and spaces of metric trees, and ask some foundational questions about this map. The heavy lifting of our work is done by an analogous version of a beautiful rigidity result of Cauchy from 1813.


Oct 6

3:00 pm

Caitlin Leverson

Duke University

Title: Legendrian knots and links

Abstract: qGiven a plane field $dz-xdy$ in $\mathbb{R}^3$. A Legendrian knot is a knot which at every point is tangent to the plane at that point. One can similarly define a Legendrian knot in any contact 3-manifold (manifold with a plane field satisfying some conditions). In this talk, we will explore Legendrian knots in $\mathbb{R}^3$, $J^1(S^1)$, and $\#^k(S^1\times S^2)$ as well a few Legendrian knot invariants. We will also look at the relationships between a few of these knot invariants. No knowledge of Legendrian knots will be assumed though some knowledge of basic knot theory would be useful.


Oct 13

3:00 pm

Jeremy Toulisse

University of Southern California

Title: Anti-de Sitter geometry and Teichm├╝ller theory.

Abstract: In the nineties, G. Mess discovered deep connections between anti-de Sitter (AdS) geometry and the theory of hyperbolic surfaces. In particular, there exists an equivalence between maximal surface in AdS space-time and minimal Lagrangian map between hyperbolic surfaces. In this talk, we will explain this equivalence and extend it to manifolds with cone singularities.


Oct 20

3:00 pm

No Meeting Fall Break

Oct 27

3:00 pm

Kenji Kozai

UC Berkeley

Title: Regenerating hyperbolic structures from Sol

Abstract: Suppose f is a pseudo-Anosov homeomorphism of a surface S, and that M is the mapping torus of f. Thurston's double-limit theorem implies that M admits a hyperbolic structure. However, M also admits a more natural singular Sol structure coming from the invariant measured foliations on S induced by f. When S is a punctured torus, Heusener-Porti-Suarez showed that the Sol structure can be deformed to nearby hyperbolic cone structures on M. By considering these geometries as special cases of projective structures, the result extends to mapping tori of surfaces of higher genus, provided that the pseudo-Anosov map f satisfies some additional properties.


Nov 3

12:15-1:10 pm

Alissa Crans

Loyola Marymount College

Title: Hom Quandles

Abstract: Analogous to the case for groups, the collection of quandle homomorphisms, Hom(Q, X), has no natural quandle structure. However, if X is an abelian quandle, then the hom set does become a quandle with the obvious pointwise operation. We will consider examples and investigate properties of this hom quandle.


Nov 10

3:00 pm

Faramarz Vafaee

California Institute of Technology

Title: A slicing obstruction from the 10/8 theorem

Abstract: A knot K in S^3 is smoothly slice if it bounds a disk that is smoothly embedded in the four-ball. From Furuta's 10/8 theorem, we derive a smooth slicing obstruction for knots in S^3 using a spin 4-manifold whose boundary is 0-surgery on a knot. We show that this obstruction is able to detect torsion elements in the smooth concordance group and find topologically slice knots (i.e. a knot in S^3 which bounds a locally flat disk in D^4) which are not smoothly slice. This work is joint with Andrew Donald.


Nov 17

3:00 pm

Diana Hubbard

Boston College

Title: The hunt for effective transverse invariants

Abstract: A central aim of modern contact geometry is to find effective invariants of transverse knots, that is, invariants that give more information than classical invariants. In this talk I will describe the background of this problem, explain why a fruitful way to understand transverse knots is via braids, and outline some progress towards defining an effective invariant in the setting of Khovanov homology. This work is joint with Adam Saltz.


Nov 24

3:00 pm

Kyle Chapman


Title: Ergodicity in the space of polygonal Knots

Abstract: Equilateral polygonal knots are often used as a model for molecules and polymers. Additionally, one can use information about equilateral polygonal knots to gather insight into the space of smooth tame knots. Because of these facts, it is often useful to be able to randomly sample the space of equilateral polygonal knots. This has posed a problem, as until recently, the primary methods of random generation have been used without knowing some basic facts about the validity of the method. We will discuss what it means for a random generation method to be ergodic, and what methods have actually been shown to be so.


Dec 1

3:00 pm

Julie Bergner

UC Riverside

Title: Fixed points of group actions on unitary partition complexes

Abstract: The poset of nontrivial partitions of a finite set can be geometrically realized to obtain a topological pace equipped with an action of the symmetric group. This space and its fixed point spaces by actions of subgroups of the symmetric group has been investigated in a series of papers by Arone, Dwyer, and Lesh and is expected to lead to a new proof of the Whitehead Conjecture. In joint work with Joachimi, Lesh, Stojanoska, and Wickelgren, we consider instead nontrivial decompositions of a finite dimensional complex vector space into orthogonal subspaces, which form a topological poset. We investigate its geometric realization and the fixed point spaces by actions of subgroups of the unitary group.


Dec 8

3:00 pm

Andy Manion


Title: An overview of categorification and bordered Heegaard Floer homology

Abstract: I will give a survey of some of the history of TQFT-type invariants for links, 3-manifolds, and 4-manifolds, directed toward some recent work relating Heegaard Floer homology and algebraic categorifications. I will start with some background focusing on Heegaard Floer homology and Khovanov homology, and recall some known and conjectural links between these theories. Then I will give a brief exposition of the bordered Heegaard Floer homology of Lipshitz, Ozsvath, and Thurston, focusing on similarities between this theory and the definitions of algebraic invariants like Khovanov homology. If time permits, I will briefly discuss a new formulation of bordered Heegaard Floer homology for knots, due to Ozsvath and Szabo in forthcoming work. This theory offers the possibility of bridging the gap between analytic Heegaard Floer invariants and categorified representation-theoretic invariants, including hopefully new connections with Khovanov homology.

Spring 2016 Schedule

special days, times or locations are in red

Date Speaker Title and Abstract

Jan 26

Moshe Cohen


Title: Random 2-bridge Chebyshev Billiard Table Diagrams

Abstract: The study of random knotting is mostly experimental with difficulty in defining good probability spaces.

Koseleff and Pecker show that all knots can be parametrized by Chebyshev polynomials in three dimensions. These long knots can be realized as trajectories on billiard table diagrams. We use this knot diagram model to study random knot diagrams by flipping a coin at each 4-valent vertex of the trajectory.

We truncate this model to study 2-bridge knots together with the unknot. We give the exact probability of a knot arising in this model. Furthermore, we give the exact probability of obtaining a knot with crossing number c.

This is joint work with Sunder Ram Krishnan and Chaim Even-Zohar.


Jan 28

Colin Adams

Williams College

Title: Upper Bounds on Hyperbolic Volume of Links


Feb 2

Tengren Zhang

California Institute of Technology

Title: Degeneration of Hitchin representations

Abstract: The Hitchin representations are a generalization of Fuchsian representations to the case where the target is a higher rank Lie group. Together, they form a connected component of the corresponding character variety, much like how Teichmuller space is a connected component of the PSL(2,R) character variety. I will describe an analog of the Fenchel-Nielsen coordinates on the Hitchin component, and then use these coordinates to define a large family of deformations in the Hitchin component called "internal sequences". Then, I will explain some geometric properties of these internal sequences, which allows us to conclude some structural similarities and differences between the higher Hitchin components and Teichmuller space.


Feb 9

Mimi Tsuruga

UC Davis

Title: Some snags in sphere recognition

Abstract: Given a $d$-dimensional simplicial complex $K$, can we determine whether $K$ is a PL-sphere? For $d=3$, Rubinstein found a deterministic algorithm which has since been improved [Thompson, Jaco and Rubinstein] and implemented [Burton]. In 2011, Schleimer showed that this decision problem is in the class NP, followed by Kuperberg and Hass who show that it is also co-NP (assuming the Reimann hypothesis). And that's just dimension 3. In dimension $d \ge 5$, the problem is undecidable [Novikov] and unknown in $d=4$. In practice, however, there are heuristic algorithms that can recognize a given complex to be a sphere (easily) in many situations. We will outline the heuristics implemented in polymake and discuss its limitations as well as some topologically interesting observations that we encountered in our experiments. Joint work with Michael Joswig and Frank H. Lutz.


Feb 16

Jozef Przytycki

George Washington University

Title: Knot Theory: from Fox 3-colorings to Yang-Baxter homology

Abstract: We start from the short introduction to Knot Theory from the historical perspective, mentioning J. B. Listing work of 1847 and spending some time on Ralph H. Fox (1913-1973) elementary introduction to diagram colorings. In the second part of the talk I will describe how Fox work was generalized to distributive colorings (rack and quandle) and eventually in the work of Jones and Turaev to link invariants via Yang-Baxter operators. Here the importance of statistical mechanics to topology will be mentioned. Finally I will describe recent developments which started with Mikhail Khovanov work on categorification of the Jones polynomial. By analogy to Khovanov homology we build homology of distributive structures (including homology of Fox colorings) and generalize it to homology of Yang-Baxter operators. We speculate, with supporting evidence, on cocycle invariants of knots coming from Yang-Baxter homology. No deep knowledge of Knot Theory, homological algebra or statistical mechanics is assumed, I will work from basic principles.


Feb 23


Mar 1


Mar 8

Hugh Howards

Wake Forrest University


Mar 15

3:00 pm

No Meeting Spring Break

Mar 22


Mar 29

George Mossessian

UC Davis


Apr 5


Apr 12


Apr 19

Katherine Raoux

Brandeis University


Apr 26


May 3

Archived Schedules