On the Alexander polynomial of alternating algebraic knots

Abstract: A conjecture of Fox about the coefficients of the Alexander polynomial of an alternating knot is proved for alternating algebraic (or arborescent) knots, which include two-bridge knots.1980 Mathematics subject classification (Amer. Math. Soc): 57 M 25.

“…Other restrictions on the Alexander polynomials of alternating knots have been conjectured by Fox, see [9] (see also [23], where these properties are verified for a large class of alternating knots). Specifically, Fox conjectures that for an alternating knot, the absolute values of the coefficients of the Alexander polynomial |a s | are non-increasing in s, for s ≥ 0.…”

Heegaard Floer homology and alternating knots

“…Other restrictions on the Alexander polynomials of alternating knots have been conjectured by Fox, see [9] (see also [23], where these properties are verified for a large class of alternating knots). Specifically, Fox conjectures that for an alternating knot, the absolute values of the coefficients of the Alexander polynomial |a s | are non-increasing in s, for s ≥ 0.…”

Heegaard Floer homology and alternating knots

“…The signature of the symmetrized Seifert matrix gives a knot invariant σ(K) satisfying a number of basic properties [23]: it is additive under connected sums, it changes in a controlled manner under crossing changes, and it gives a lower bound on the genus of a slice surface. Levine and Tristram [40] extend this invariant to a one-parameter family of knot invariants σ ω indexed by points ω on the unit circle.…”

Concordance homomorphisms from knot Floer homology

“…The case of two-bridge knots is confirmed by Hartley [2]. More generally Murasugi proved it for alternating algebraic knots [6]. The case of genus two alternating knots has also been verified by Ozsváth and Szabó using Heegaard Floer homology [7], and by Jong via a combinatorial method [4].…”

On the Alexander polynomial and the signature invariant of two-bridge knots