Hexavalent half-arc-transitive graphs of order 4p4p

A graph is half-arc-transitive if its automorphism group acts transitively on its vertex set and edge set, but not arc set. It was shown by [Y.-Q. Feng, K.S. Wang, C.X. Zhou, Tetravalent half-transitive graphs of order 4p, European J. Combin. 28 (2007) 726–733] that all tetravalent half-arc-transitive graphs of order 4p4p for a prime pp are non-Cayley and such graphs exist if and only if p−1p−1 is divisible by 8. In this paper, it is proved that each hexavalent half-arc-transitive graph of order 4p4p is a Cayley graph and such a graph exists if and only if p−1p−1 is divisible by 12, which is unique for a given order. This result contributes to the classification of half-arc-transitive graphs of order 4p4p of general valencies.