Xiaocong He scite author profile

Let L n be a linear hexagonal chain with n hexagons. Let Lˆ2 n be the graph obtained by the strong prism of a linear hexagonal chain with n hexagons, i.e. the strong product of L n and K 2. In this paper, explicit expressions for degree-Kirchhoff index and number of spanning trees of Lˆ2 n are determined, respectively. Furthermore, it is interesting to find that the degree-Kirchhoff index of Lˆ2 n is almost one eighth of its Gutman index.

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The maximum spectral radius of graphs with a large core

Feng

Stevanović

2023

ELA

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The $(k+1)$-core of a graph $G$, denoted by $C_{k+1}(G)$, is the subgraph obtained by repeatedly removing any vertex of degree less than or equal to $k$. $C_{k+1}(G)$ is the unique induced subgraph of minimum degree larger than $k$ with a maximum number of vertices. For $1\leq k\leq m\leq n$, we denote $R_{n, k, m}=K_k\vee(K_{m-k}\cup {I_{n-m}})$. In this paper, we prove that $R_{n, k, m}$ obtains the maximum spectral radius and signless Laplacian spectral radius among all $n$-vertex graphs whose $(k+1)$-core has at most $m$ vertices. Our result extends a recent theorem proved by Nikiforov [Electron. J. Linear Algebra, 27:250--257, 2014]. Moreover, we also present the bipartite version of our result.

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Xiaocong He

Relation between the inertia indices of a complex unit gain graph and those of its underlying graph

Solutions for two conjectures on the eigenvalues of the eccentricity matrix, and beyond

On the largest and least eigenvalues of eccentricity matrix of trees

The normalized Laplacian, degree-Kirchhoff index and spanning trees of graphs derived from the strong prism of linear hexagonal chain

The maximum spectral radius of graphs with a large core

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