The first Steklov eigenvalue of planar graphs and beyond

Abstract

The Steklov eigenvalue problem was introduced over a century ago, and its discrete form attracted interest recently. Let D and δ be the maximum vertex degree and the set of vertices of degree one in a graph G respectively. Let λ2 be the first (non-trivial) Steklov eigenvalue of (G, δ ). In this paper, using the circle packing theorem and conformal mapping, we first show that λ2 ≤ 8D / |δ | for planar graphs. This can be seen as a discrete analogue of Kokarev's bound, that is, λ2 < 8π / |∂ | for compact surfaces with boundary of genus 0. Let B and L be the maximum block size and the diameter of a block graph G respectively. Secondly, we prove that λ2 ≤ 4 (B-1) (D-1)/ |δ | and λ2 ≤ B/L for block graphs, which extend the results on trees by He and Hua. In the end, for trees with fixed leaf number and maximum degree, candidates that achieve the maximum first Steklov eigenvalue are given.

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