文摘
We establish an inclusion relation between two uniform models of random k -graphs (for constant k≥2k≥2) on n labeled vertices: G(k)(n,m)G(k)(n,m), the random k-graph with m edges, and R(k)(n,d)R(k)(n,d), the random d-regular k -graph. We show that if nlogn≪m≪nknlogn≪m≪nk we can choose d=d(n)∼km/nd=d(n)∼km/n and couple G(k)(n,m)G(k)(n,m) and R(k)(n,d)R(k)(n,d) so that the latter contains the former with probability tending to one as n→∞n→∞. This extends an earlier result of Kim and Vu about “sandwiching random graphs”. In view of known threshold theorems on the existence of different types of Hamilton cycles in G(k)(n,m)G(k)(n,m), our result allows us to find conditions under which R(k)(n,d)R(k)(n,d) is Hamiltonian. In particular, for k≥3k≥3 we conclude that if nk−2≪d≪nk−1nk−2≪d≪nk−1, then a.a.s. R(k)(n,d)R(k)(n,d) contains a tight Hamilton cycle.