AKT-09: Difference between revisions

DBN: Classes: 2009-10: AKT-09/Navigation # Week of... Videos, Notes, and Links 1 Sep 7 About This Class  090910-1: 3-colourings, Reidemeister's theorem, invariance, the Kauffman bracket.  090910-2: R23 invariance of the bracket, R1, the writhe, the Jones polynomial, programming the Jones polynomial. Tricolourability 2 Sep 14  090915: More on Jones, some pathologies and more on Reidemeister, our overall agenda.  090917-1: The definition of finite type, weight systems, Jones is a finite type series.  090917-2: The skein relation for Jones; HOMFLY-PT and Conway; the weight system of Jones. 3 Sep 21  090922: FI, 4T, HOMFLY and FI and 4T, statement of the Fundamental Theorem, framed knots.  090924-1: Some dimensions of ${\displaystyle {\mathcal {A}}_{n}}$, ${\displaystyle {\mathcal {A}}}$ is a commutative algebra, ${\displaystyle {\mathcal {A}}(\bigcirc )\equiv {\mathcal {A}}(\uparrow )}$. Class Photo  090924-2: ${\displaystyle {\mathcal {A}}}$ is a co-commutative algebra, the relation with products of invariants, ${\displaystyle {\mathcal {A}}}$ is a bi-algebra. 4 Sep 28 Homework Assignment 1 Homework Assignment 1 Solutions  090929: The Milnor-Moore theorem, primitives, the map ${\displaystyle {\mathcal {A}}^{r}\to {\mathcal {A}}}$.  091001-1: Jacobi diagrams, AS, IHX, STU, and the equivalence of all that with 4T.  091001-2: The very basics on Lie algebras. 5 Oct 5  091006: Lie algebraic weight systems, ${\displaystyle gl_{N}}$.  091008-1: More on ${\displaystyle gl_{N}}$, Lie algebras and the four colour theorem.  091008-2: The "abstract tenssor" approach to weight systems, ${\displaystyle {\mathcal {U}}({\mathfrak {g}})}$ and PBW, the map ${\displaystyle {\mathcal {T}}_{\mathfrak {g}}}$. 6 Oct 12  091013: Algebraic properties of ${\displaystyle {\mathcal {U}}({\mathfrak {g}})}$ vs. algebraic properties of ${\displaystyle {\mathcal {A}}}$. Thursday's class canceled. 7 Oct 19  091020: Universal finite type invariants, filtered and graded spaces, expansions. Homework Assignment 2 The Stonehenge Story  091022-1: The Stonehenge Story to IHX and STU.  091022-2: The Stonhenge Story: anomalies, framings, relation with physics. 8 Oct 26  091027: Knotted trivalent graphs and their chord diagrams.  091029-1: Zsuzsi Dancso on the Kontsevich Integral (1).  091029-2: Zsuzsi Dancso on the Kontsevich Integral (2). 9 Nov 2  091103: The details of ${\displaystyle {\mathcal {A}}^{TG}}$.  091105-1: Three basic problems: genus, unknotting numbers, ribbon knots.  091105-2: The three basic problems and algebraic knot theory. 10 Nov 9  091110: Tangles and planar algebras, shielding and the generators of KTG. Homework Assignment 3 No Thursday class. 11 Nov 16 Local Khovanov Homology  091119-1: Local Khovanov homology, I.  091119-2: Local Khovanov homology, II. 12 Nov 23  091124: Emulation of one structure inside another, deriving the pentagon.  091126-1: Peter Lee on braided monoidal categories, I.  091126-2: Peter Lee on braided monoidal categories, II. 13 Nov 30  091201: The relations in KTG.  091203-1: The Existence of the Exponential Function.  091203-2: The Final Exam, Dror's failures. F Dec 7 The Final Exam on Thu Dec 10, 9-11, Bahen 6183. Register of Good Deeds / To Do List Add your name / see who's in!

Algebraic Knot Theory

Department of Mathematics, University of Toronto, Fall 2009

Agenda: Understand "(u, v, and w knots) x (topology, combinatorics, low algebra, and high algebra)". Understand the promise and the difficulty of the not-yet-existant "Algebraic Knot Theory".

Instructor: Dror Bar-Natan, drorbn@math.toronto.edu, Bahen 6178, 416-946-5438. Office hours: by appointment.

Classes: Tuesdays 10-11 in 215 Huron room 1018 and Thursdays 9-11 in Bahen 6183.

Further Resources

• Graduate Studies at the UofT Math Department. In particular, Graduate Course Descriptions.
• Past Knot Theory classes I have taught:
  • Math 1352S - Knot Theory in Spring 2007.
  • Math 1350F - Knot Theory in Fall 2006.
  • Math 1350F - Knot Theory in Fall 2003.
  • Seminar on Knot Theory in Spring 2002.
  • Knots and Feynman Diagrams in Fall 2001.
  • Knot Theory in Spring 2001.