Genus bounds for knot polynomials of Lie superalgebras

Abstract

Knot polynomials colored by typical representations of Lie superalgebras of type I (except psl(n|n)) have two variables q and t, the latter corresponding to the complex-valued weight of the distinguished odd root. We prove that for every typical representation of a Lie superalgebra of type I, the t-degree of the knot polynomial is at most the number of odd roots times the genus of the knot. A complimentary bound being at least the number of odd roots times degree of the Alexander polynomial can be obtained from a specialization at q=1. These two bounds become equalities when the Alexander polynomial detects the genus of the knot, as is the case for alternating knots and fibered knots.

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