Large deviations for triangles in scale-free random graphs
Abstract
We provide large deviations estimates for the upper tail of the number of triangles in scale-free inhomogeneous random graphs where the degrees have power law tails with index . We show that upper tail probabilities for triangles undergo a phase transition. For , the upper tail is caused by many vertices of degree of order , and this probability is semi-exponential. In this regime, additional triangles consist of two hubs. For on the other hand, the upper tail is caused by one hub of a specific degree, and this probability decays polynomially in , leading to additional triangles with one hub. In the intermediate case , we show polynomial decay of the tail probability caused by multiple but finitely many hubs. In this case, the additional triangles contain either a single hub or two hubs. Our proofs are partly based on various concentration inequalities. In particular, we tailor concentration bounds for empirical processes to make them well-suited for analyzing heavy-tailed phenomena in nonlinear settings.
Cite
@article{arxiv.2303.09198,
title = {Large deviations for triangles in scale-free random graphs},
author = {Clara Stegehuis and Bert Zwart},
journal= {arXiv preprint arXiv:2303.09198},
year = {2024}
}