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Related papers: On knots having zero negative unknotting number

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The untwisting number of a knot K is the minimum number of null-homologous twists required to convert K to the unknot. Such a twist can be viewed as a generalization of a crossing change, since a classical crossing change can be effected by…

Geometric Topology · Mathematics 2024-07-24 Samantha Allen , Kenan Ince , Seungwon Kim , Benjamin Matthias Ruppik , Hannah Turner

The genus non-increasing totally positive unknotting number is the minimum number of crossing changes that transform a knot into the unknot, such that all the crossing changes are positive-to-negative crossing changes that do not increase…

Geometric Topology · Mathematics 2024-06-24 Tetsuya Ito

Given a knot in the three-sphere, is it possible to unknot it by performing a single twist, and if so, what are the possible linking numbers of such a twist? We develop obstructions to unknotting using a twist of a specified linking number.…

Geometric Topology · Mathematics 2021-07-20 Samantha Allen , Charles Livingston

We give the first examples of a pair of knots $K_1$,$K_2$ in the 3-sphere for which their unknotting numbers satisfy $u(K_1\#K_2)<u(K_1)+u(K_2)$ . This answers question 1.69(B) from Kirby's problem list, "Problems in low-dimensional…

Geometric Topology · Mathematics 2025-09-16 Mark Brittenham , Susan Hermiller

We discuss an "extrinsic" property of knots in a 3-subspace of the 3-sphere $S^3$ to characterize how the subspace is embedded in $S^3$. Specifically, we show that every knot in a subspace of the 3-sphere is transient if and only if the…

Geometric Topology · Mathematics 2016-03-30 Yuya Koda , Makoto Ozawa

We use the rational Witt class of a knot in the 3-sphere as a tool for addressing questions about its unknotting number. We apply these tools to several low crossing knots (151 knots with 11 crossing and 100 knots with 12 crossings) and to…

Geometric Topology · Mathematics 2009-07-15 Stanislav Jabuka

The unknotting number of a knot is the minimum number of crossings one must change to turn that knot into the unknot. The algebraic unknotting number is the minimum number of crossing changes needed to transform a knot into an Alexander…

Geometric Topology · Mathematics 2016-06-22 Kenan Ince

Let $u(K)$ and $g(K)$ denote the unknotting number and the genus of a knot $K$, respectively. For a 3-braid knot $K$, we show that $u(K)\le g(K)$ holds, and that if $u(K)=g(K)$ then $K$ is either a 2-braid knot, a connected sum of two…

Geometric Topology · Mathematics 2014-01-28 Eon-Kyung Lee , Sang-Jin Lee

The unknotting number of a positive braid with n strands and k intersections is known to be equal to (k-n+1)/2. We consider Lorenz knots (which are positive braids) and, using a different method, find their unknotting numbers in terms of…

Geometric Topology · Mathematics 2015-03-04 Lilya Lyubich

Any knot in $S^3$ may be reduced to a slice knot by crossing changes. Indeed, this slice knot can be taken to be the unknot. In this paper we study the question of when the same holds for knots in homology spheres. We show that a knot in a…

Geometric Topology · Mathematics 2020-02-19 Christopher W. Davis

The unknotting number is the classical invariant of a knot. However, its determination is difficult in general. To obtain the unknotting number from definition one has to investigate all possible diagrams of the knot. We tried to show the…

Geometric Topology · Mathematics 2013-06-25 Kang-Il Ri , Yun-Ho An , Chang-Il Rim

It is known that any surface knot can be transformed to an unknotted surface knot or a surface knot which has a diagram with no triple points by a finite number of 1-handle additions. The minimum number of such 1-handles is called the…

Geometric Topology · Mathematics 2013-05-21 Inasa Nakamura

An oriented compact 4-manifold $V$ with boundary $S^3$ is called a positon (resp. negaton) if its intersection form is positive definite (resp. negative definite) and it is simply connected. In this paper, we prove that there exist…

Geometric Topology · Mathematics 2016-01-18 Kouki Sato

The unknotting number of a knot is the minimum number of crossings one must change to turn that knot into the unknot. We work with a generalization of unknotting number due to Mathieu-Domergue, which we call the untwisting number. The…

Geometric Topology · Mathematics 2023-05-31 Kenan Ince

The crosscap number of a knot in the 3-sphere is the minimal genus of non-orientable surface bounded by the knot. We determine the crosscap numbers of torus knots.

Geometric Topology · Mathematics 2007-05-23 Masakazu Teragaito

We use Heegaard Floer homology to give obstructions to unknotting a knot with a single crossing change. These restrictions are particularly useful in the case where the knot in question is alternating. As an example, we use them to classify…

Geometric Topology · Mathematics 2007-05-23 Peter Ozsvath , Zoltan Szabo

A well-known algorithm for unknotting knots involves traversing a knot diagram and changing each crossing that is first encountered from below. The minimal number of crossings changed in this way across all diagrams for a knot is called the…

Geometric Topology · Mathematics 2024-09-27 Lowell Davis , Jeffrey Meier

A knot is an an embedding of a circle into three-dimensional space. We say that a knot is unknotted if there is an ambient isotopy of the embedding to a standard circle. By representing knots via planar diagrams, we discuss the problem of…

Geometric Topology · Mathematics 2011-11-08 Allison Henrich , Louis H. Kauffman

The unknotting number of a knot is bounded from below by its slice genus. It is a well-known fact that the genera and unknotting numbers of torus knots coincide. In this note we characterize quasipositive knots for which the genus bound is…

Geometric Topology · Mathematics 2015-05-13 Sebastian Baader

For any knot with genus one and unknotting number one, other than the figure-eight knot, we prove that there is exactly one way to unknot it by means of a crossing change. In the case of the figure-eight knot, we prove that there are…

Geometric Topology · Mathematics 2009-05-15 Alexander Coward , Marc Lackenby
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