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Some Non-abelian Covers of Knot Complements
Morris, Timothy Michael
Morris, Timothy Michael
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2019
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Mathematics
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http://dx.doi.org/10.34944/dspace/3290
Abstract
Let K be a tame knot embedded in S³. We address the problem of finding the minimal degree non-cyclic cover p : X → S³ \ K. When K has non-trivial Alexander polynomial we construct finite non-abelian representations p : π1 (S³\ K) → G, and provide bounds for the order of G in terms of the crossing number of K, which is an improvement on a result of Broaddus in this case. Using classical covering space theory along with the theory of Alexander stratifications we establish an upper and lower bound for the first betti number of the cover Xp associated to the ker (p) of S³ \ K, consequently showing that it can be arbitrarily large, which provides an effective proof of a result involving peripheral subgroup separation. We also demonstrate that Xp contains non-peripheral homology for certain computable examples, which mirrors a famous result of Cooper, Long, and Reid when K is a knot with non-trivial Alexander polynomial.
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