Math 758 — Spring 2002 Topics in Topology
Instructor: | James Conant |
Time: | TR 8:40-9:55 |
Room: | Malott 205 |
This course is an introduction to the currently developing field of finite type (or Vassiliev) invariants of low dimensional objects. The theory of finite type invariants supports a rich and beautiful structure, but so far it has remained essentially independent from the rest of topology. A recent preprint of Garoufalidis and Rozansky, however, starts to draw a connection with classical algebraic topology, and it is the ultimate goal of the course to understand this paper. First, we will have to understand the so-called Kontsevich integral, which is a powerful invariant of knots and links, taking values in power series of trivalent graphs. Secondly, we have to understand the generalization of the Kontsevich integral to knots in homology 3-spheres. The paper of Garoufalidis and Rozansky starts to give an algebraic topological explanation of this last invariant, similar in spirit to the algebraic topological explanation of the Alexander polynomial as a homological invariant of the infinite cyclic cover of a knot complement.