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Related papers: Middle tunnels by splitting

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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 2011-10-18 Sangbum Cho , Darryl McCullough

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

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

This is the third of three papers that refine and extend portions of our earlier preprint, "The depth of a knot tunnel." Together, they rework the entire preprint. In this paper, we use the theory of tunnel number 1 knots that we introduced…

Geometric Topology · Mathematics 2008-12-09 Sangbum Cho , Darryl McCullough

The theory of tunnel number 1 knots detailed in our previous paper, The tree of knot tunnels, provides a non-negative integer invariant called the depth of the tunnel. We give various results related to the depth invariant. Noting that it…

Geometric Topology · Mathematics 2007-08-28 Sangbum Cho , Darryl McCullough

This is the second of three papers that refine and extend portions of our earlier preprint, "The depth of a knot tunnel." Together, they rework the entire preprint. The theory of tunnel number 1 knots that we introduced in "The tree of knot…

Geometric Topology · Mathematics 2014-10-01 Sangbum Cho , Darryl McCullough

It is a consequence of theorems of Gordon-Reid [Tangle decompositions of tunnel number one knots and links, J. Knot Theory and its Ramifications, 4 (1995) 389-409] and Thompson [Thin position and bridge number for knots in the 3-sphere,…

Geometric Topology · Mathematics 2014-11-11 Hiroshi Goda , Martin Scharlemann , Abigail Thompson

A knot K is called a 1-genus 1-bridge knot in a 3-manifold M if (M,K) has a Heegaard splitting (V_1,t_1)\cup (V_2,t_2) where V_i is a solid torus and t_i is a boundary parallel arc properly embedded in V_i. If the exterior of a knot has a…

Geometric Topology · Mathematics 2010-09-14 Hiroshi Goda , Chuichiro Hayashi

We show that twisted torus knots $T(p,q,3,s)$ are tunnel number one. A short spanning arc connecting two adjacent twisted strands is an unknotting tunnel.

Geometric Topology · Mathematics 2010-01-18 Jung Hoon Lee

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

This is the first of three papers that refine and extend portions of our earlier preprint, "Depth of a knot tunnel." Together, they rework the entire preprint. H. Goda, M. Scharlemann, and A. Thompson described a general construction of all…

Geometric Topology · Mathematics 2008-12-09 Sangbum Cho , Darryl McCullough

A knot K in a closed connected orientable 3-manifold M is called a 1-genus 1-bridge knot if (M,K) has a splitting into two pairs of a solid torus V_i (i=1,2) and a boundary parallel arc in it. The splitting induces a genus two Heegaard…

Geometric Topology · Mathematics 2010-09-14 Hiroshi Goda , Chuichiro Hayashi

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 present a new theory which describes the collection of all tunnels of tunnel number 1 knots in the 3-sphere (up to orientation-preserving equivalence in the sense of Heegaard splittings) using the disk complex of the genus-2 handlebody…

Geometric Topology · Mathematics 2014-11-11 Sangbum Cho , Darryl McCullough

We show that the bridge number of a $t$ bridge knot in $S^3$ with respect to an unknotted genus $t$ surface is bounded below by a function of the distance of the Heegaard splitting induced by the $t$ bridges. It follows that for any natural…

Geometric Topology · Mathematics 2007-05-23 Jesse Johnson , Abigail Thompson

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

Let M be $S^3$, $S^1\times S^2$, or a lens space L(p,q), and let k be a (1,1)-knot in M, i.e., a knot which is of 1-bridge with respect to a Heegaard torus. We show that if there is a closed meridionally incompressible surface in the…

Geometric Topology · Mathematics 2009-09-29 Mario Eudave-Munoz

We construct knots in S^3 with Heegaard splittings of arbitrarily high distance, in any genus. As an application, for any positive integers t and b we find a tunnel number t knot in the three-sphere which has no (t,b)-decomposition.

Geometric Topology · Mathematics 2014-10-01 Yair Minsky , Yoav Moriah , Saul Schleimer

A knot in S^3 is said to have crosscap number two if it bounds a once-punctured Klein bottle but not a Moebius band. In this paper we give a method of constructing crosscap number two hyperbolic (1,2)-knots with tunnel number one which are…

Geometric Topology · Mathematics 2008-12-17 Luis G. Valdez-Sanchez , Enrique Ramirez-Losada

In math.GT/0002110 the author's Theorems 1.1 and 1.2, combined, implied that iterated torus knots are transversally simple. This result is in error and this erratum pin points the error. In "An addendum on iterated torus knots" a more…

Geometric Topology · Mathematics 2007-05-23 William W. Menasco
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