arXiv:math/0407274 Abstract

arXiv:math/0407274 [math.CO]Abstract References Reviews Resources

On the extreme eigenvalues of regular graphs

Published 2004-07-15, updated 2005-08-12Version 2

In this paper, we present an elementary proof of a theorem of Serre concerning the greatest eigenvalues of $k$-regular graphs. We also prove an analogue of Serre's theorem regarding the least eigenvalues of $k$-regular graphs: given $\epsilon>0$, there exist a positive constant $c=c(\epsilon,k)$ and a nonnegative integer $g=g(\epsilon,k)$ such that for any $k$-regular graph $X$ with no odd cycles of length less than $g$, the number of eigenvalues $\mu$ of $X$ such that $\mu \leq -(2-\epsilon)\sqrt{k-1}$ is at least $c|X|$. This implies a result of Winnie Li.

Comments: accepted to J.Combin.Theory, Series B. added 5 new references, some comments on the constant c in Section 2

Categories: math.CO

Subjects: 05C50, 15A18

Keywords: regular graph, extreme eigenvalues, winnie li, elementary proof, odd cycles

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arXiv:math/0407274 [math.CO]Abstract References Reviews Resources

On the extreme eigenvalues of regular graphs

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On the extreme eigenvalues of regular graphs

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