On the number of Hamilton cycles in sparse random graphs
Abstract
We prove that the number of Hamilton cycles in the random graph G(n,p) is n!pn(1+o(1))n a.a.s., provided that p≥ (ln n+ln ln n+ω(1))/n. Furthermore, we prove the hitting-time version of this statement, showing that in the random graph process, the edge that creates a graph of minimum degree 2 creates (ln n/e)n(1+o(1))n Hamilton cycles a.a.s.
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