Cubic factor-invariant graphs of bialternating cycle quotient type

Abstract: In 2019, investigation of the so-called factor-invariant cubic graphs was initiated by Alspach, Khodadadpour and Kreher. For a cubic graph $Γ$ and a vertex-transitive subgroup $G$ of $\mathrm{Aut}(Γ)$, a $2$-factor $\mathcal{C}$ of $Γ$ is said to be {\em $G$-invariant} if the set $\mathcal{C}$ is preserved by each element of $G$. Investigations of factor-invariant cubic graphs therefore contribute to the rapidly growing theory on cubic vertex-transitive graphs, providing a better insight into the structure of such graphs. Initially, the examples where $\mathcal{C}$ consists of a single or just two cycles were analyzed. In a paper by Brian Alspach and the author of this paper, the investigation of the examples for which the corresponding quotient graph $Γ_\mathcal{C}$ of $Γ$ with respect to $\mathcal{C}$ is a cycle was initiated. Moreover, the graphs of the so-called {\em alternating cycle quotient type} were classified. In this paper, the remaining examples, that is the graphs of the {\em bialternating cycle quotient type}, are classified. It is shown that they belong to a previously unknown infinite $5$-parametric family of graphs of girth at most $10$ and that they are Cayley graphs of groups with respect to three involutions.