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arxiv: 1002.1033 · v1 · pith:OTI2QWBHnew · submitted 2010-02-04 · 🧮 math.CO

Pseudo and Strongly Pseudo 2--Factor Isomorphic Regular Graphs

classification 🧮 math.CO
keywords factorpseudographsisomorphicregularstronglyonlybipartite
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A graph $G$ is pseudo 2--factor isomorphic if the parity of the number of cycles in a 2--factor is the same for all 2--factors of $G$. In \cite{ADJLS} we proved that pseudo 2--factor isomorphic $k$--regular bipartite graphs exist only for $k \le 3$. In this paper we generalize this result for regular graphs which are not necessarily bipartite. We also introduce strongly pseudo 2--factor isomorphic graphs and we prove that pseudo and strongly pseudo 2--factor isomorphic 2k--regular graphs and $k$--regular digraphs do not exist for $k\geq 4$. Moreover, we present constructions of infinite families of regular graphs in these classes. In particular we show that the family of Flower snarks is strongly pseudo 2--factor isomorphic but not 2--factor isomorphic and we conjecture that, together with the Petersen and the Blanu\v{s}a2 graphs, they are the only cyclically 4--edge--connected snarks for which each 2--factor contains only cycles of odd length.

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