AbstractIt is well known that the spectral radius of a tree whose maximum degree is Δ cannot exceed 2Δ−1. In this paper we derive similar bounds for arbitrary planar graphs and for graphs of bounded genus. Using the decomposition result of Gonçalves (2009) [9], we prove that the spectral radius ρ(G) of a planar graph G of maximum vertex degree Δ⩾2 satisfies ρ(G)⩽8Δ−16+3.47. This result is best possible up to the additive constant—we construct an (infinite) planar graph of maximum degree Δ, whose spectral radius is 8Δ−16. This generalizes and improves several previous results and solves an open problem proposed by Tom Hayes. Similar bounds are derived for graphs of bounded genus. For every k, these bounds can be improved by excluding K2,k as...
We address several problems in spectral graph theory, with a common theme of optimizing or computing...
AbstractLet G be a simple graph with n vertices, m edges. Let Δ and δ be the maximum and minimum deg...
Let t≥3 and G be a graph of order n, with no K2,t minor. If n\u3e400t6, then the spectral radius μ(G...
AbstractIt is well known that the spectral radius of a tree whose maximum degree is Δ cannot exceed ...
AbstractA decomposition result for planar graphs is used to prove that the spectral radius of a plan...
We determine a lower bound for the spectral radius of a graph in terms of the number of vertices and...
AbstractWe study the spectral radius of graphs with n vertices and k cut vertices and describe the g...
AbstractWe determine a lower bound for the spectral radius of a graph in terms of the number of vert...
AbstractIn this paper, we obtain a relation between the spectral radius and the genus of a graph. In...
Let A(G) and D(G) be the adjacency matrix and the degree matrix of a graph G, respectively. For any ...
AbstractLet G be a simple connected graph with n vertices and m edges. Let δ(G)=δ be the minimum deg...
We study graphswith spectral radius atmost 3/2√2 and refine results byWoo and Neumaier [R.Woo, A. Ne...
AbstractWe study the spectral radius of graphs with n vertices and k cut edges. In this paper, we sh...
We study the spectral radius of graphs with n vertices and k cut edges. In this paper, we show that ...
AbstractWe study graphs with spectral radius at most 322 and refine results by Woo and Neumaier [R. ...
We address several problems in spectral graph theory, with a common theme of optimizing or computing...
AbstractLet G be a simple graph with n vertices, m edges. Let Δ and δ be the maximum and minimum deg...
Let t≥3 and G be a graph of order n, with no K2,t minor. If n\u3e400t6, then the spectral radius μ(G...
AbstractIt is well known that the spectral radius of a tree whose maximum degree is Δ cannot exceed ...
AbstractA decomposition result for planar graphs is used to prove that the spectral radius of a plan...
We determine a lower bound for the spectral radius of a graph in terms of the number of vertices and...
AbstractWe study the spectral radius of graphs with n vertices and k cut vertices and describe the g...
AbstractWe determine a lower bound for the spectral radius of a graph in terms of the number of vert...
AbstractIn this paper, we obtain a relation between the spectral radius and the genus of a graph. In...
Let A(G) and D(G) be the adjacency matrix and the degree matrix of a graph G, respectively. For any ...
AbstractLet G be a simple connected graph with n vertices and m edges. Let δ(G)=δ be the minimum deg...
We study graphswith spectral radius atmost 3/2√2 and refine results byWoo and Neumaier [R.Woo, A. Ne...
AbstractWe study the spectral radius of graphs with n vertices and k cut edges. In this paper, we sh...
We study the spectral radius of graphs with n vertices and k cut edges. In this paper, we show that ...
AbstractWe study graphs with spectral radius at most 322 and refine results by Woo and Neumaier [R. ...
We address several problems in spectral graph theory, with a common theme of optimizing or computing...
AbstractLet G be a simple graph with n vertices, m edges. Let Δ and δ be the maximum and minimum deg...
Let t≥3 and G be a graph of order n, with no K2,t minor. If n\u3e400t6, then the spectral radius μ(G...