07-1352/Suggested Topics for Student Lectures: Difference between revisions

The Choices
Karene	${\displaystyle gl(1|1)}$
Siddarth	The Melvin-Morton-Rozansky (ex-)Conjecture.
Zavosh	Knot Floer homology
Zsuzsi	Vogel's universal algebra

Students must choose their lecture topics in coordination with Dror, and the sooner this is done, the better.

• More on Chern-Simons theory, Feynman diagrams and configuration space integrals.

• More on the Milnor Moore Theorem.

• Explicit computations for torus knots, Hopf chains, etc.

• Higher skein modules following Andersen and Turaev, arXiv:math.GT/9812071.

• Homotopy invariants of links.

• Vassiliev invariants for braids.

• Goussarov's "interdependent modifications".

• The Melvin-Morton-Rozansky (ex-)Conjecture.

• Finite type invariants of 3-manifolds.

• The LMO invariant and the Århus integral.

• Hutchings' step by step integration.

• The exceptional Lie algebras and finite type invariants.

• More on the self-linking number.

• BF theories.

• Finite type invariants of other kinds of objects (Legendrian and transverse knots, planar curves, etc.).

• Gropes and grope cobordism.

• The Lie algebra ${\displaystyle gl(1|1)}$ and the Alexander polynomial.

• Gauss diagram formulas.

• Claspers and clovers.

• The Kalfagianni - Lin papers on Seifert surfaces and Vassiliev invariants.

• Rozansky-Witten theory.

• A detailed study of ${\displaystyle {\mathcal {A}}}$ following Kneissler.

• Rozansky's rationality (ex-)conjecture.

• "Detecting Knot Invertibility" following Kuperberg.

• Multiple ${\displaystyle \zeta }$-numbers and the Drinfel'd associator.

• "Uniqueness" of a well-behaved universal finite type invariant.

• Finite type invariants not coming from Lie algebras, following Vogel and Lieberum.

• The group of knots modulo ${\displaystyle n}$-equivalence.

• Vogel's "universal Lie Algebra".

• Anything else from Dror's EMP paper.

• Anything else from VasBib.

• Anything else from anywhere else.