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Related papers: Additive tunnel number and primitive elements

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Let $K$ be a tunnel number two knot. Then, by considering the $(g, b)$-decompositions, $K$ is one of (3, 0)-, (2, 1)-, (1, 2)- or (0, 3)-knots. In the present paper, we analyze the connected sum summands of composite tunnel number two knots…

Geometric Topology · Mathematics 2014-09-04 Kanji Morimoto

We prove that the tunnel number of the sum of n knots is at least n.

Geometric Topology · Mathematics 2007-05-23 Martin Scharlemann , Jennifer Schultens

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

Let c(K;F) denote the surface crossing number of a knot K with respect to a closed connected surface F in S^3. We relate c(K;F) to the tunnel number t(K) and to the Heegaard deficiency delta(F)=g(M_1;F)+g(M_2;F)-g(F), where S^3=M_1 union_F…

Geometric Topology · Mathematics 2026-05-22 Makoto Ozawa

Let $h(K)$, $g_H(K)$, $g_1(K)$, $t(K)$ be the $h$-genus, Heegaard genus, bridge-1 genus, tunnel number of a knot $K$ in the $3$-sphere $S^3$, respectively. It is known that $g_H(K)-1=t(K)\leq g_1(K)\leq h(K)\leq g_H(K)$. A natural question…

Geometric Topology · Mathematics 2025-04-29 Ruifeng Qiu , Chao Wang , Yanqing Zou

A knot in the 3-sphere in genus-1 1-bridge position (called a (1,1)-position) can be described by an element of the braid group of two points in the torus. Our main results tell how to translate between a braid group element and the…

Geometric Topology · Mathematics 2011-08-05 Sangbum Cho , Darryl McCullough

We show that for each pair of positive integers g and n, there are infinitely many tunnel number one knots, whose exteriors contain an essential meridional surface of genus g, and with 2n boundary components. We also show that for each…

Geometric Topology · Mathematics 2009-09-25 Mario Eudave-Munoz

Let $K_1, K_2$ be two knots with $t(K_1)+t(K_2)>2$ and $t(K_1 # K_2)=2$. Then, in the present paper, we will show that any genus three Heegaard splittings of $E(K_1 # K_2)$ is strongly irreducible and that $E(K_1 # K_2)$ has at most four…

Geometric Topology · Mathematics 2013-10-29 Kanji Morimoto

We determine the genus one fibered knots in lens spaces that have tunnel number one. We also show that every tunnel number one, once-punctured torus bundle is the result of Dehn filling a component of the Whitehead link in the 3-sphere.

Geometric Topology · Mathematics 2007-05-23 Kenneth L. Baker , Jesse E. Johnson , Elizabeth A. Klodginski

Let $K$ be a nontrivial knot in $S^{3}$ and $t(K)$ its tunnel number. For any $(p\geq 2,q)$-slope in the torus boundary of a closed regular neighborhood of $ K$ in $S^{3}$, denoted by $K^{\star}$, it is a nontrivial cable knot in $S^{3}$.…

Geometric Topology · Mathematics 2020-02-19 Junhua Wang , Yanqing Zou

We prove a theorem which bounds Heegaard genus from below under special kinds of toroidal amalgamations of $3$-manifolds. As a consequence, we conclude $t(K_1\# K_2)\geq \max\{t(K_1),t(K_2)\}$ for any pair of knots $K_1,K_2\subset S^3$,…

Geometric Topology · Mathematics 2016-07-20 Trent Schirmer

The Meridional Rank Conjecture asks whether the bridge number of a knot in $S^3$ is equal to the minimal number of meridians needed to generate the fundamental group of its complement. In this paper we investigate the analogous conjecture…

Geometric Topology · Mathematics 2023-02-07 Jason Joseph , Puttipong Pongtanapaisan

Let $M=W\cup_T V$ be an amalgamation of two compact 3-manifolds along a torus, where $W$ is the exterior of a knot in a homology sphere. Let $N$ be the manifold obtained by replacing $W$ with a solid torus such that the boundary of a…

Geometric Topology · Mathematics 2022-06-01 Tao Li

We characterize composite tunnel number one genus two handlebody-knots.

Geometric Topology · Mathematics 2013-05-16 Mario Eudave-Munoz , Makoto Ozawa

M. Scharlemann has recently proved that any genus one tunnel number one knot is either a satellite or 2-bridge knot, as conjectured by H. Goda and M. Teragaito; all such knots admit a (1,1) decomposition. In this paper we give a…

Geometric Topology · Mathematics 2016-08-16 Enrique Ramírez-Losada , Luis G. Valdez-Sánchez

We consider closed acylindrical surfaces in 3-manifolds and in knot and link complements, and show that the genus of these surfaces is bounded linearly by the number of tetrahedra in the triangulation of the manifold and by the number of…

Geometric Topology · Mathematics 2009-09-29 Mario Eudave-Munoz , Max Neumann-Coto

We show that there are hyperbolic tunnel-number one knots with arbitrarily high bridge number and that "most" tunnel-number one knots are not one-bridge with respect to an unknotted torus. The proof relies on a connection between bridge…

Geometric Topology · Mathematics 2007-05-23 Jesse Johnson

For a genus-1 1-bridge knot in the 3-sphere, that is, a (1,1)-knot, a middle tunnel is a tunnel that is not an upper or lower tunnel for some (1,1)-position. Most torus knots have a middle tunnel, and non-torus-knot examples were obtained…

Geometric Topology · Mathematics 2011-08-18 Sangbum Cho , Darryl McCullough

A knot k in a closed orientable 3-manifold is called nonsimple if the exterior of k possesses a properly embedded essential surface of nonnegative Euler characteristic. We show that if k is a nonsimple prime tunnel number one knot in a lens…

Geometric Topology · Mathematics 2009-08-13 Michael J. Williams

The only knots that are tunnel number one and genus one are those that are already known: 2-bridge knots obtained by plumbing together two unknotted annuli and the satellite examples classified by Eudave-Munoz and by Morimoto-Sakuma. This…

Geometric Topology · Mathematics 2007-05-23 Martin Scharlemann