Torsion in the knot concordance group and cabling

  • Sungkyung Kang

    Institute for Basic Science, Pohang, South Korea; University of Oxford, Oxford, UK
  • JungHwan Park

    Korea Advanced Institute for Science and Technology, Daejeon, South Korea
Torsion in the knot concordance group and cabling cover

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Abstract

We define a nontrivial modulo 2 valued additive concordance invariant defined on the torsion subgroup of the knot concordance group using involutive knot Floer package. For knots not contained in its kernel, we prove that their iterated -cables have infinite order in the concordance group and, among them, infinitely many are linearly independent. Furthermore, by taking -cables of the aforementioned knots, we present an infinite family of knots which are strongly rationally slice but not slice.

Cite this article

Sungkyung Kang, JungHwan Park, Torsion in the knot concordance group and cabling. J. Eur. Math. Soc. (2024), published online first

DOI 10.4171/JEMS/1520