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Related papers: Crosscap Numbers of Two-component Links

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We define the concordance crosscap number of a knot as the minimum crosscap number among all the knots concordant to the knot. The four-dimensional crosscap number is the minimum first Betti number of non-orientable surfaces smoothly…

Geometric Topology · Mathematics 2007-05-23 Gengyu Zhang

We present a practical algorithm to determine the minimal genus of non-orientable spanning surfaces for 2-bridge knots, called the crosscap numbers. We will exhibit a table of crosscap numbers of 2-bridge knots up to 12crossings (all 362 of…

Geometric Topology · Mathematics 2007-05-23 Mikami Hirasawa , Masakazu Teragaito

As a generalization of the linking number, we construct a set of invariant numbers for two-component handlebody-links. These numbers are elementary divisors associated with the natural homomorphism from the first homology group of a…

Geometric Topology · Mathematics 2013-05-14 Atsuhiko Mizusawa

We give sharp two-sided linear bounds of the crosscap number (non-orientable genus) of alternating links in terms of their Jones polynomial. Our estimates are often exact and we use them to calculate the crosscap numbers for several…

Geometric Topology · Mathematics 2016-04-19 Efstratia Kalfagianni , Christine Ruey Shan Lee

We describe a way of encoding a Kauffman state as a set of tuples, similar to a Gauss code. Then we describe a procedure for using these state codes to determine the unoriented genus and crosscap number of any prime alternating knot or…

Geometric Topology · Mathematics 2025-12-11 Isaias Bahena , Thomas Kindred , Jason Parsley

A diagonal surface in a link exterior M is a properly embedded, incompressible, boundary incompressible surface which furthermore has the same number of boundary components and same slope on each component of the boundary of M. We derive a…

Geometric Topology · Mathematics 2007-05-23 Jim E. Hoste , Patrick D. Shanahan

The splitting number of a link is the minimum number of crossing changes between distinct components that is required to convert the link into a split link. We provide a bound on the splitting number in terms of the four-genus of related…

Geometric Topology · Mathematics 2018-06-13 Charles Livingston

The splitting number of a link is the minimal number of crossing changes between different components required, on any diagram, to convert it to a split link. We introduce new techniques to compute the splitting number, involving covering…

Geometric Topology · Mathematics 2013-08-27 Jae Choon Cha , Stefan Friedl , Mark Powell

The splitting number of a link is the minimal number of crossing changes between different components required to convert it into a split link. We obtain a lower bound on the splitting number in terms of the (multivariable) signature and…

Geometric Topology · Mathematics 2016-10-27 David Cimasoni , Anthony Conway , Kleopatra Zacharova

The crosscap number of a knot in the 3-sphere is defined as the minimal first Betti number of non-orientable subsurfaces bounded by the knot. In this paper, we determine the crosscap numbers of pretzel knots. The key ingredient to obtain…

Geometric Topology · Mathematics 2007-05-23 Kazuhiro Ichihara , Shigeru Mizushima

This paper concerns the H(2)-unknotting numbers of links related to 2-bridge links. It consists of three parts. In the first part, we consider a necessary and sufficient condition for a 2-bridge link to have H(2)-unknotting number one. The…

Geometric Topology · Mathematics 2011-04-25 Yuanyuan Bao

We introduce and study knots and links in 2-dimensional complexes. In particular, we define linking numbers for oriented two-component links in 2-complexes and a Kauffman-type bracket polynomial for links in 2-complexes. We also discuss…

Geometric Topology · Mathematics 2023-06-13 Vladimir Turaev

We introduce a "deformation" of plumbing. We also define a structure of data used in a calculation by computer aid of the crosscap numbers of alternating knots.

Geometric Topology · Mathematics 2021-08-24 Noboru Ito , Kaito Yamada

We introduce an unknotting-type number of knot projections that gives an upper bound of the crosscap number of knots. We determine the set of knot projections with the unknotting-type number at most two, and this result implies classical…

Geometric Topology · Mathematics 2020-08-26 Noboru Ito , Yusuke Takimura

The triple linking number of an oriented surface link was defined as an analogical notion of the linking number of a classical link. We consider a certain $m$-component $T^2$-link ($m \geq 3$) determined from two commutative pure $m$-braids…

Geometric Topology · Mathematics 2012-02-15 Inasa Nakamura

In the 1980's Daryl Cooper introduced the notion of a C-complex (or clasp-complex) bounded by a link and explained how to compute signatures and polynomial invariants using a C-complex. Since then this was extended by works of Cimasoni,…

Geometric Topology · Mathematics 2019-07-30 Jonah Amundsen , Eric Anderson , Christopher William Davis , Daniel Guyer

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

The purpose of this document is to provide data about known Betti numbers of unordered configuration spaces of small graphs in order to guide research and avoid duplicated effort. It contains information for connected multigraphs having at…

Algebraic Topology · Mathematics 2020-01-07 Gabriel C. Drummond-Cole

Kalfagianni and Lee found two-sided bounds for the crosscap number of an alternating link in terms of certain coefficients of the Jones polynomial. We show here that we can find similar two-sided bounds for the crosscap number of Conway…

Geometric Topology · Mathematics 2025-11-05 Rob McConkey

For a knot K, the concordance crosscap number, c(K), is the minimum crosscap number among all knots concordant to K. Building on work of G. Zhang, which studied the determinants of knots with c(K) < 2, we apply the Alexander polynomial to…

Geometric Topology · Mathematics 2013-10-29 Charles Livingston
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