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We say that a graph is intrinsically knotted or completely 3-linked if every embedding of the graph into the 3-sphere contains a nontrivial knot or a 3-component link any of whose 2-component sublink is nonsplittable. We show that a graph…

Geometric Topology · Mathematics 2020-05-19 Ryo Hanaki , Ryo Nikkuni , Kouki Taniyama , Akiko Yamazaki

We introduce new sufficient conditions for intrinsic knotting and linking. A graph on n vertices with at least 4n-9 edges is intrinsically linked. A graph on n vertices with at least 5n-14 edges is intrinsically knotted. We also classify…

Geometric Topology · Mathematics 2007-05-23 J. Campbell , T. W. Mattman , R. Ottman , J. Pyzer , M. Rodrigues , S. Williams

We present four models for a random graph and show that, in each case, the probability that a graph is intrinsically knotted goes to one as the number of vertices increases. We also argue that, for $k \geq 18$, most graphs of order $k$ are…

Geometric Topology · Mathematics 2018-11-27 Kazuhiro Ichihara , Thomas W. Mattman

A graph is called intrinsically knotted if every embedding of the graph contains a knotted cycle. Johnson, Kidwell and Michael showed that intrinsically knotted graphs have at least 21 edges. Recently Lee, Kim, Lee and Oh, and,…

Geometric Topology · Mathematics 2017-08-14 Hyoungjun Kim , Hwa Jeong Lee , Minjung Lee , Thomas Mattman , Seungsang Oh

A graph is called intrinsically knotted if every embedding of the graph contains a knotted cycle. Johnson, Kidwell and Michael, and, independently, Mattman showed that intrinsically knotted graphs have at least 21 edges. Recently Lee, Kim,…

Geometric Topology · Mathematics 2017-08-15 Hyoungjun Kim , Thomas Mattman , Seungsang Oh

We consider intrinsic linking and knotting in the context of directed graphs. We construct an example of a directed graph that contains a consistently oriented knotted cycle in every embedding. We also construct examples of intrinsically…

Geometric Topology · Mathematics 2017-12-29 Thomas Fleming , Joel Foisy

We find all maximal linklessly embeddable graphs of order up to 11, and verify that for every graph $G$ of order 11 either $G$ or its complement $cG$ is intrinsically linked. We give an example of a graph $G$ of order 11 such that both $G$…

Geometric Topology · Mathematics 2022-08-18 Ramin Naimi , Ryan Odeneal , Andrei Pavelescu , Elena Pavelescu

A graph is maximal knotless if it is edge maximal for the property of knotless embedding in $R^3$. We show that such a graph has at least $\frac74 |V|$ edges, and construct an infinite family of maximal knotless graphs with $|E| <…

Geometric Topology · Mathematics 2023-06-21 Lindsay Eakins , Thomas Fleming , Thomas W. Mattman

We list more than 200 new examples of minor minimal intrinsically knotted graphs and describe many more that are intrinsically knotted and likely minor minimal.

Geometric Topology · Mathematics 2015-03-13 Noam Goldberg , Thomas W. Mattman , Ramin Naimi

We classify graphs that are 0, 1, or 2 edges short of being complete partite graphs with respect to intrinsic linking and intrinsic knotting. In addition, we classify intrinsic knotting of graphs on 8 vertices. For graphs in these families,…

Geometric Topology · Mathematics 2007-05-23 Thomas W. Mattman , Ryan Ottman , Matt Rodrigues

Johnson, Kidwell, and Michael showed that intrinsically knotted graphs have at least 21 edges. Also it is known that K7 and the thirteen graphs obtained from K7 by rY moves are intrinsically knotted graphs with 21 edges. We prove that these…

Geometric Topology · Mathematics 2015-12-02 Min Jung Lee , Hyoung Jun Kim , Hwa Jeong Lee , Seungsang Oh

A graph is intrinsically knotted if every embedding contains a nontrivially knotted cycle. It is known that intrinsically knotted graphs have at least 21 edges and that there are exactly 14 intrinsically knotted graphs with 21 edges, in…

Combinatorics · Mathematics 2022-05-13 Hyoungjun Kim , Thomas W Mattman , Seungsang Oh

We prove that the complement of any non-separating planar graph of order $2n-3$ contains a $K_n$ minor, and argue that the order $2n-3$ is lowest possible with this property. To illustrate the necessity of the non-separating hypothesis, we…

Combinatorics · Mathematics 2023-08-16 Leonard Fowler , Gregory Li , Andrei Pavelescu

We present evidence in support of a conjecture that a bipartite graph with at least five vertices in each part and |E(G)| \geq 4 |V(G)| - 17 is intrinsically knotted. We prove the conjecture for graphs that have exactly five or exactly six…

Geometric Topology · Mathematics 2008-11-04 Sophy Huck , Alexandra Appel , Miguel-Angel Manrique , Thomas W Mattman

It has been an open question whether the deletion or contraction of an edge in an intrinsically knotted graph always yields an intrinsically linked graph. We present a new intrinsically knotted graph that shows the answer to both questions…

Geometric Topology · Mathematics 2024-04-24 Thomas W. Mattman , Ramin Naimi , Andrei Pavelescu , Elena Pavelescu

We construct a graph G such that any embedding of G into R^{3} contains a nonsplit link of two components, where at least one of the components is a nontrivial knot. Further, for any m < n we produce a graph H so that every embedding of H…

Geometric Topology · Mathematics 2007-05-23 Thomas Fleming

A graph is intrinsically knotted if every embedding contains a knotted cycle. It is known that intrinsically knotted graphs have at least 21 edges and that the KS graphs, $K_7$ and the 13 graphs obtained from $K_7$ by $\nabla Y$ moves, are…

Geometric Topology · Mathematics 2014-11-10 Hyoungjun Kim , Thomas Mattman , Seungsang Oh

A directed graph $G$ is $\textit{intrinsically linked}$ if every embedding of that graph contains a non-split link $L$, where each component of $L$ is a consistently oriented cycle in $G$. A $\textit{tournament}$ is a directed graph where…

Geometric Topology · Mathematics 2019-01-14 Thomas Fleming , Joel Foisy

We give a brief survey of some known results on intrinsically linked or knotted graphs.

Geometric Topology · Mathematics 2020-06-15 Ramin Naimi

For every graph $X$, we consider the class of all connected $\{K_{1,3}, X\}$-free graphs which are distinct from an odd cycle and have independence number at least $4$, and we show that all graphs in the class are perfect if and only if $X$…

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