On Algebraic Unknotting Numbers of Knots

Osamu SAEKI

doi:10.3836/tjm/1270041448

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Home > Journals > Tokyo J. Math. > Volume 22 > Issue 2 > Article

December 1999 On Algebraic Unknotting Numbers of Knots

Osamu SAEKI

Tokyo J. Math. 22(2): 425-443 (December 1999). DOI: 10.3836/tjm/1270041448

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Abstract

We show that the algebraic unknotting number of a classical knot $K$, defined by Murakami [9], is equal to the minimum number of unknotting operations necessary to transform $K$ to a knot with trivial Alexander polynomial. Furthermore, we define a new operation, called an elementary twisting operation, for smooth $(2n-1)$-knots with $n\geq 1$ and odd, and show that this is an unknotting operation for simple $(2n-1)$-knots. Moreover, the unknotting number of a simple $(2n-1)$-knot defined by using the elementary twisting operation is equal to the algebraic unknotting number of the $S$-equivalence class of its Seifert matrix if $n\geq 3$.