An Infinite Family of 6Regular B-Cayley Graphs from the Petersen Graph

Abstract

We construct an infinite family of 6-regular graphs \Gn\n 3 by taking n copies of the Petersen graph and wiring corresponding vertices according to an n-cycle permutation. Each Gn has 10n vertices, 30n edges, and automorphism group D5n of order 10n, acting with two vertex orbits of size 5n. The graphs have girth 4 and diameter n/2+2. We prove that G3 and G4 are Ramanujan graphs, satisfying |λ2| 25. The first five members (n=3,…,7) have been deposited in the House of Graphs database as entries 56324--56328. This construction provides new examples of highly symmetric regular graphs and contributes two new Ramanujan graphs to the literature. All computational scripts are available online for full reproducibility.

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