Mathematics – Geometric Topology
Scientific paper
2011-08-15
Mathematics
Geometric Topology
37 pages; V2: Added Section 6.6 with experimental results on related adjoint torsion polynomial. V3: Minor edits
Scientific paper
We study a twisted Alexander polynomial naturally associated to a hyperbolic knot in an integer homology 3-sphere via a lift of the holonomy representation to SL(2, C). It is an unambiguous symmetric Laurent polynomial whose coefficients lie in the trace field of the knot. It contains information about genus, fibering, and chirality, and moreover is powerful enough to sometimes detect mutation. We calculated this invariant numerically for all 313,209 hyperbolic knots in S^3 with at most 15 crossings, and found that in all cases it gave a sharp bound on the genus of the knot and determined both fibering and chirality. We also study how such twisted Alexander polynomials vary as one moves around in an irreducible component X_0 of the SL(2, C)-character variety of the knot group. We show how to understand all of these polynomials at once in terms of a polynomial whose coefficients lie in the function field of X_0. We use this to help explain some of the patterns observed for knots in S^3, and explore a potential relationship between this universal polynomial and the Culler-Shalen theory of surfaces associated to ideal points.
Dunfield Nathan M.
Friedl Stefan
Jackson Nicholas
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