Largest Eigenvalues Of Sparse Inhomogeneous Erdos-Renyi Graphs

We consider inhomogeneous Erdos-Renyi graphs. We suppose that the maximal mean degree d satisfies d << log n. We characterise the asymptotic behaviour of the (1-omicron)(n)(1) largest eigenvalues of the adjacency matrix and its centred version. We prove that these extreme eigenvalues are governed at first order by the largest degrees and, for the adjacency matrix, by the nonzero eigenvalues of the expectation matrix. Our results show that the extreme eigenvalues exhibit a novel behaviour which in particular rules out their convergence to a nondegenerate point process. Together with the companion paper [Benaych-Georges, Bordenave and Knowles (2017)], where we analyse the extreme eigenvalues in the complementary regime d >> log n, this establishes a crossover in the behaviour of the extreme eigenvalues around d similar to log n. Our proof relies on a tail estimate for the Poisson approximation of an inhomogeneous sum of independent Bernoulli random variables, as well as on an estimate on the operator norm of a pruned graph due to Le, Levina, and Vershynin from [Random Structures Algorithms 51 (2017) 538-561].