Characterizing forbidden pairs for relative length of longest paths and cycles

Yibin Fang; Liming Xiong

doi:10.1016/j.disc.2022.112870

Characterizing forbidden pairs for relative length of longest paths and cycles

Yibin Fang, Liming Xiong^*

^*Corresponding author for this work

School of Mathematics and Statistics

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

Abstract

For a set H of connected graphs, a graph G is said to be H-free if G does not contain any member of H as an induced subgraph. When |H|=2, H is called a forbidden pair. In this paper, we completely characterize the forbidden pairs H such that every 2-connected H-free graph G satisfies p(G)−c(G)≤1, where p(G) and c(G) denote the order of a longest path and a longest cycle of G, respectively. This strengthens some result of Chiba et al. (2015) [7]. Furthermore, we investigate the forbidden pairs needed to guarantee a 2-connected H-free graph G satisfying p(G)−c(G)≤k for any positive integer k. Meanwhile, we determine the forbidden pairs H such that every 2-connected H-free graph G satisfies c(G)≥n−k for any positive integer k. These results extend the work of Faudree and Gould (1997) [12] on Hamilton cycles.

Original language	English
Article number	112870
Journal	Discrete Mathematics
Volume	345
Issue number	7
DOIs	https://doi.org/10.1016/j.disc.2022.112870
Publication status	Published - Jul 2022

Keywords

Circumference
Forbidden pair
Forbidden subgraph
Relative length

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10.1016/j.disc.2022.112870

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title = "Characterizing forbidden pairs for relative length of longest paths and cycles",

abstract = "For a set H of connected graphs, a graph G is said to be H-free if G does not contain any member of H as an induced subgraph. When |H|=2, H is called a forbidden pair. In this paper, we completely characterize the forbidden pairs H such that every 2-connected H-free graph G satisfies p(G)−c(G)≤1, where p(G) and c(G) denote the order of a longest path and a longest cycle of G, respectively. This strengthens some result of Chiba et al. (2015) [7]. Furthermore, we investigate the forbidden pairs needed to guarantee a 2-connected H-free graph G satisfying p(G)−c(G)≤k for any positive integer k. Meanwhile, we determine the forbidden pairs H such that every 2-connected H-free graph G satisfies c(G)≥n−k for any positive integer k. These results extend the work of Faudree and Gould (1997) [12] on Hamilton cycles.",

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AU - Xiong, Liming

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N2 - For a set H of connected graphs, a graph G is said to be H-free if G does not contain any member of H as an induced subgraph. When |H|=2, H is called a forbidden pair. In this paper, we completely characterize the forbidden pairs H such that every 2-connected H-free graph G satisfies p(G)−c(G)≤1, where p(G) and c(G) denote the order of a longest path and a longest cycle of G, respectively. This strengthens some result of Chiba et al. (2015) [7]. Furthermore, we investigate the forbidden pairs needed to guarantee a 2-connected H-free graph G satisfying p(G)−c(G)≤k for any positive integer k. Meanwhile, we determine the forbidden pairs H such that every 2-connected H-free graph G satisfies c(G)≥n−k for any positive integer k. These results extend the work of Faudree and Gould (1997) [12] on Hamilton cycles.

AB - For a set H of connected graphs, a graph G is said to be H-free if G does not contain any member of H as an induced subgraph. When |H|=2, H is called a forbidden pair. In this paper, we completely characterize the forbidden pairs H such that every 2-connected H-free graph G satisfies p(G)−c(G)≤1, where p(G) and c(G) denote the order of a longest path and a longest cycle of G, respectively. This strengthens some result of Chiba et al. (2015) [7]. Furthermore, we investigate the forbidden pairs needed to guarantee a 2-connected H-free graph G satisfying p(G)−c(G)≤k for any positive integer k. Meanwhile, we determine the forbidden pairs H such that every 2-connected H-free graph G satisfies c(G)≥n−k for any positive integer k. These results extend the work of Faudree and Gould (1997) [12] on Hamilton cycles.

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KW - Forbidden subgraph

KW - Relative length

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Characterizing forbidden pairs for relative length of longest paths and cycles

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Keywords

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