In the mathematical field of graph theory, the F26A graph is a symmetric bipartite cubic graph with 26 vertices and 39 edges.[1]

F26A graph
The F26A graph is Hamiltonian.
Vertices26
Edges39
Radius5
Diameter5
Girth6
Automorphisms78   (C13⋊C6)
Chromatic number2
Chromatic index3
PropertiesCayley graph
Symmetric
Cubic
Hamiltonian[1]
Table of graphs and parameters

It has chromatic number 2, chromatic index 3, diameter 5, radius 5 and girth 6.[2] It is also a 3-vertex-connected and 3-edge-connected graph.

The F26A graph is Hamiltonian and can be described by the LCF notation [−7, 7]13.

Algebraic properties

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The automorphism group of the F26A graph is a group of order 78.[3] It acts transitively on the vertices, on the edges, and on the arcs of the graph. Therefore, the F26A graph is a symmetric graph (though not distance transitive). It has automorphisms that take any vertex to any other vertex and any edge to any other edge. According to the Foster census, the F26A graph is the only cubic symmetric graph on 26 vertices.[2] It is also a Cayley graph for the dihedral group D26, generated by a, ab, and ab4, where:[4]

 

The F26A graph is the smallest cubic graph where the automorphism group acts regularly on arcs (that is, on edges considered as having a direction).[5]

The characteristic polynomial of the F26A graph is equal to

 

Other properties

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The F26A graph can be embedded as a chiral regular map in the torus, with 13 hexagonal faces. The dual graph for this embedding is isomorphic to the Paley graph of order 13.

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References

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  1. ^ a b Weisstein, Eric W. "Cubic Symmetric Graph". MathWorld.
  2. ^ a b Conder, M. and Dobcsányi, P. "Trivalent Symmetric Graphs Up to 768 Vertices." J. Combin. Math. Combin. Comput. 40, 41–63, 2002.
  3. ^ Royle, G. F026A data
  4. ^ "Yan-Quan Feng and Jin Ho Kwak, Cubic s-Regular Graphs, p. 67" (PDF). Archived from the original (PDF) on 2006-08-26. Retrieved 2010-03-12.
  5. ^ Yan-Quan Feng and Jin Ho Kwak, "One-regular cubic graphs of order a small number times a prime or a prime square," J. Aust. Math. Soc. 76 (2004), 345-356 [1].