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arxiv: 1910.00375 · v1 · pith:ZZB7RTPE · submitted 2019-10-01 · physics.soc-ph · cond-mat.stat-mech

Simplicial SIS model in scale-free uniform hypergraph

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classification physics.soc-ph cond-mat.stat-mech
keywords hypergraphssimplicialcontagiondegreedistributionepidemicfacethybrid
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The hypergraph offers a platform to study structural properties emerging from more complicated and higher-order than pairwise interactions among constituents and dynamical behavior such as the spread of information or disease. Recently, a simplicial contagion problem was introduced and considered using a simplicial susceptible-infected-susceptible (SIS) model. Although recent studies have investigated random hypergraphs with a Poisson-type facet degree distribution, hypergraphs in the real world can have a power-law type of facet degree distribution. Here, we consider the SIS contagion problem on scale-free uniform hypergraphs and find that a continuous or hybrid epidemic transition occurs when the hub effect is dominant or weak, respectively. We determine the critical exponents analytically and numerically. We discuss the underlying mechanism of the hybrid epidemic transition.

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