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The concept of a knot mosaic was introduced by Lomonaco and Kauffman as a means to construct a quantum knot system. The mosaic number of a given knot $K$ is defined as the minimum integer $n$ that allows the representation of $K$ on an $n…

Geometric Topology · Mathematics 2023-08-31 Seonmi Choi , Jieon Kim

By using the cohomology theory of quandles, quandle cocycle invariants and shadow quandle cocycle invariants are defined for oriented links and surface-links via broken surface diagrams. By using symmetric quandles, symmetric quandle…

Geometric Topology · Mathematics 2015-02-06 Seiichi Kamada , Jieon Kim , Sang Youl Lee

The study of knot mosaics is based upon representing knot diagrams using a set of tiles on a square grid. This branch of knot theory has many unanswered questions, especially regarding the efficiency with which we draw knots as mosaics.…

Geometric Topology · Mathematics 2025-01-29 Aaron Heap , Douglas Baldwin , James Canning , Greg Vinal

It is well known that surface-links in 4-space can be presented by diagrams on the plane of 4-valent spatial graphs with makers on the vertices, called marked graph diagrams. In this paper we extend the method of presenting surface-links by…

Geometric Topology · Mathematics 2017-07-18 Seiichi Kamada , Akio Kawauchi , Jieon Kim , Sang Youl Lee

Marked vertex diagrams provide a combinatorial way to represent knotted surfaces in $\mathbb{R}^4$; including virtual crossings allows for a theory of virtual knotted surfaces and virtual cobordisms. Biquandle counting invariants are…

Geometric Topology · Mathematics 2015-06-08 Sam Nelson , Patricia Rivera

We introduce colorings of oriented surface-links by biquasiles using marked graph diagrams. We use these colorings to define counting invariants and Boltzmann enhancements of the biquasile counting invariants for oriented surface-links. We…

Geometric Topology · Mathematics 2018-01-11 Jieon Kim , Sam Nelson

We investigate relationships between bounds on the crossing number and the mosaic number of mosaic knots.

Geometric Topology · Mathematics 2010-04-14 J. Alan Alewine , H. A. Dye , David Etheridge , Irina Garduno , Amber Ramos

Meier and Zupan introduced bridge trisections of surface links in $S^4$ as a 4-dimensional analogue to bridge decompositions of classical links, which gives a numerical invariant of surface links called the bridge number. We prove that…

Geometric Topology · Mathematics 2024-04-08 Kouki Sato , Kokoro Tanaka

A marked graph diagram is a link diagram possibly with marked $4$-valent vertices. S. J. Lomonaco, Jr. and K. Yoshikawa introduced a method of representing surface-links by marked graph diagrams. Specially, K. Yoshikawa gave local moves on…

Geometric Topology · Mathematics 2015-03-18 Jieon Kim , Yewon Joung , Sang Youl Lee

We introduce and study so-called self-indexed graphs. These are (oriented) finite graphs endowed with a map from the set of edges to the set of vertices. Such graphs naturally arise from classical knot and link diagrams. In fact, the graphs…

Geometric Topology · Mathematics 2007-05-23 Matias Graña , Vladimir Turaev

A knot mosaic is a representation of a knot or link on a square grid using a collection of tiles that are either blank or contain a portion of the knot diagram. Traditionally, a piece of the knot on one tile connects to a piece of the knot…

Geometric Topology · Mathematics 2024-04-03 Aaron Heap , Una Donovan , Riley Grossman , Nickolas Laine , Connor McDermott , Marcus Paone , Drew Southcott

We describe a method for generating minimal hard prime surface-link diagrams. We extend the known examples of minimal hard prime classical unknot and unlink diagrams up to three components and generate figures of all minimal hard prime…

Geometric Topology · Mathematics 2019-08-28 Michal Jablonowski

Mosaic tiles were first introduced by Lomonaco and Kauffman in 2008 to describe quantum knots, and have since been studied for their own right. Using a modified set of tiles, front projections of Legendrian knots can be built from mosaics…

Geometric Topology · Mathematics 2025-10-14 Margaret Kipe , Samantha Pezzimenti , Leif Schaumann , Luc Ta , Wing Hong Tony Wong

A Gauss diagram is a simple, combinatorial way to present a knot. It is known that any Vassiliev invariant may be obtained from a Gauss diagram formula that involves counting (with signs and multiplicities) subdiagrams of certain…

Geometric Topology · Mathematics 2016-11-26 Michael Brandenbursky

In this paper, we define invariants of links in terms of colorings of link diagrams and prove that these invariants coincide with various notions of widths of links with respect to the standard Morse function. Our formulations are…

Geometric Topology · Mathematics 2024-01-31 Ricky Lee , Puttipong Pongtanapaisan , Hanh Vo

In this study of the Reidemeister moves within the classical knot theory, we focus on hard diagrams of knots and links, categorizing them as either rigid or shaky based on their adaptability to certain moves. We establish that every link…

Geometric Topology · Mathematics 2025-10-14 Michal Jablonowski

We describe a method of encoding various types of link diagrams, including those with classical, flat, rigid, welded, and virtual crossings. We show that this method may be used to encode link diagrams, up to equivalence, in a notation…

Geometric Topology · Mathematics 2013-05-03 Chad Musick

We describe an algorithm that recognizes some (perhaps all) intrinsically knotted (IK) graphs, and can help find knotless embeddings for graphs that are not IK. The algorithm, implemented as a Mathematica program, has already been used by…

Geometric Topology · Mathematics 2013-10-10 Jonathan Miller , Ramin Naimi

Lomonaco and Kauffman developed knot mosaics to give a definition of a quantum knot system. This definition is intended to represent an actual physical quantum system. A knot $n$-mosaic is an $n \times n$ matrix of 11 kinds of specific…

Geometric Topology · Mathematics 2014-11-27 Hwa Jeong Lee , Kyungpyo Hong , Ho Lee , Seungsang Oh

We define invariants of oriented surface-links by enhancing the biquandle counting invariant using \textit{biquandle modules}, algebraic structures defined in terms of biquandle actions on commutative rings analogous to Alexander…

Geometric Topology · Mathematics 2019-08-28 Yewon Joung , Sam Nelson
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