Upper bounds of the second largest eigenvalue of graphs

Abstract

Let λi(G) denote the i-th largest eigenvalue of adjacency matrix of a graph G. Gerschgorin's Theorem indicates λ1(G) belongs to the largest disk, i.e., λ1(G)Δ1(G), where Δi(G) is the i-th largest degree of G. We show that λ2(G) lies in the second largest disk. That is, in detail, λ2(G)<Δ2(G)-1n2. A classical theorem proved by Hong [Linear Algebra Appl. 1988] states that λ1(G)2m-n+1 for a connected graph G with n vertices and m edges, where the equality holds if and only if G is a star Sn or a complete graph Kn. We give a refinement of Hong's theorem by showing λ1(G)<2m-n for any connected graph G∈\Sn,S1n-1,Kn,K1n-1\. Based on this improved upper bound of λ1(G), for a connected graph G with n vertices and m edges, we are able to prove a sharp upper bound of λ2(G) that λ2(G)m-n2-12, except G is obtained from two disjoint Sn2 by adding an edge between a pendant vertex of each star. Moreover, we provide a complete characterization to extremal graphs attaining the equality.