Edge Degree Conditions for Dominating and Spanning Closed Trails

Tao Tian; Hajo Broersma; Liming Xiong

doi:10.7151/dmgt.2450

Edge Degree Conditions for Dominating and Spanning Closed Trails

Tao Tian, Hajo Broersma, Liming Xiong

School of Mathematics and Statistics

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

1 Citation (Scopus)

Abstract

Edge degree conditions have been studied since the 1980s, mostly with regard to hamiltonicity of line graphs and the equivalent existence of dominating closed trails in their root graphs, as well as the stronger property of being supereulerian, i.e., admitting a spanning closed trail. For a graph G, let σ¯2(G)=min{ d(u)+d(v)|uv ∈ E(G)}. Chen et al. conjectured that a 3-edge-connected graph G with sufficientl large order n and σ¯2(G)>n9-2 is either supereulerian or contractible to the Petersen graph. We show that the conjecture is true when σ¯2(G)≥2. Furthermore, we show that for an essentially k-edge-connected graph G with sufficiently large order n, the following statements hold. (i) If k = 2 and σ¯2(G)≥, then either L(G) is hamiltonian or G can be contracted to one of a set of six graphs which are not supereulerian; (ii) If k = 3 and σ¯2(G)≥2), then either L(G) is hamiltonian or G can be contracted to the Petersen graph.

Original language	English
Journal	Discussiones Mathematicae - Graph Theory
DOIs	https://doi.org/10.7151/dmgt.2450
Publication status	Accepted/In press - 2022

Keywords

degree sum
hamiltonicity
line graph
supereulerian

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title = "Edge Degree Conditions for Dominating and Spanning Closed Trails",

abstract = "Edge degree conditions have been studied since the 1980s, mostly with regard to hamiltonicity of line graphs and the equivalent existence of dominating closed trails in their root graphs, as well as the stronger property of being supereulerian, i.e., admitting a spanning closed trail. For a graph G, let σ¯2(G)=min{ d(u)+d(v)|uv ∈ E(G)}. Chen et al. conjectured that a 3-edge-connected graph G with sufficientl large order n and σ¯2(G)>n9-2 is either supereulerian or contractible to the Petersen graph. We show that the conjecture is true when σ¯2(G)≥2. Furthermore, we show that for an essentially k-edge-connected graph G with sufficiently large order n, the following statements hold. (i) If k = 2 and σ¯2(G)≥, then either L(G) is hamiltonian or G can be contracted to one of a set of six graphs which are not supereulerian; (ii) If k = 3 and σ¯2(G)≥2), then either L(G) is hamiltonian or G can be contracted to the Petersen graph.",

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author = "Tao Tian and Hajo Broersma and Liming Xiong",

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year = "2022",

doi = "10.7151/dmgt.2450",

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AU - Tian, Tao

AU - Broersma, Hajo

AU - Xiong, Liming

PY - 2022

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AB - Edge degree conditions have been studied since the 1980s, mostly with regard to hamiltonicity of line graphs and the equivalent existence of dominating closed trails in their root graphs, as well as the stronger property of being supereulerian, i.e., admitting a spanning closed trail. For a graph G, let σ¯2(G)=min{ d(u)+d(v)|uv ∈ E(G)}. Chen et al. conjectured that a 3-edge-connected graph G with sufficientl large order n and σ¯2(G)>n9-2 is either supereulerian or contractible to the Petersen graph. We show that the conjecture is true when σ¯2(G)≥2. Furthermore, we show that for an essentially k-edge-connected graph G with sufficiently large order n, the following statements hold. (i) If k = 2 and σ¯2(G)≥, then either L(G) is hamiltonian or G can be contracted to one of a set of six graphs which are not supereulerian; (ii) If k = 3 and σ¯2(G)≥2), then either L(G) is hamiltonian or G can be contracted to the Petersen graph.

KW - degree sum

KW - hamiltonicity

KW - line graph

KW - supereulerian

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JO - Discussiones Mathematicae - Graph Theory

JF - Discussiones Mathematicae - Graph Theory

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Edge Degree Conditions for Dominating and Spanning Closed Trails

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Keywords

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