Spectrum of Directed Inhomogeneous Random Graphs

Abstract

We study the spectrum of the adjacency matrix An of directed inhomogeneous random graphs on n vertices. We assume that An has independent entries and diverging average degree scale sn. This framework includes, as special cases, the directed Chung--Lu random graph and directed stochastic block models. Assuming boundedness of the variance profile and that sn diverges faster than a suitable logarithmic function of n, we show that the rank-one Chung--Lu model satisfies a non-homogeneous version of the circular law, which in some situations allows for an explicit expression. Moreover, under mild conditions, we identify the asymptotic singular value distribution using tools from free probability. Finally, for finite-rank directed models, we prove the existence of eigenvalues outside the bulk and establish their joint Gaussian fluctuations at the scale sn/n, with an explicit covariance matrix. These results extend the theory of spectral outliers and their fluctuations to directed inhomogeneous random graphs.

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