Eulerian circuits and path decompositions in quartic planar graphs
Abstract
A subcycle of an Eulerian circuit is a sequence of edges that are consecutive in the circuit and form a cycle. We characterise the quartic planar graphs that admit Eulerian circuits avoiding 3-cycles and 4-cycles. From this, it follows that a quartic planar graph of order n can be decomposed into k1+k2+k3+k4 many paths with ki copies of Pi+1, the path with i edges, if and only if k1+2k2+3k3+4k4 = 2n. In particular, every connected quartic planar graph of even order admits a P5-decomposition.
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