Rainbow Pancyclicity in Graph Systems

Abstract

Let G1,...,Gn be graphs on the same vertex set of size n, each graph with minimum degree δ(Gi) n/2. A recent conjecture of Aharoni asserts that there exists a rainbow Hamiltonian cycle i.e. a cycle with edge set \e1,...,en\ such that ei∈ E(Gi) for 1≤ i ≤ n. This can be viewed as a rainbow version of the well-known Dirac theorem. In this paper, we prove this conjecture asymptotically by showing that for every >0, there exists an integer N>0, such that when n>N for any graphs G1,...,Gn on the same vertex set of size n with δ(Gi) (12+)n, there exists a rainbow Hamiltonian cycle. Our main tool is the absorption technique. Additionally, we prove that with δ(Gi)≥ n+12 for each i, one can find rainbow cycles of length 3,...,n-1.