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arxiv: 2410.06279 · v2 · pith:L4WLJ35S · submitted 2024-10-08 · physics.soc-ph · cond-mat.stat-mech

Exploring growing complex systems with higher-order interactions

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classification physics.soc-ph cond-mat.stat-mech
keywords interactionssystemshigher-ordercomplexgrowingnodessystemconsisting
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A complex system with many interacting individuals can be represented by a network consisting of nodes and links representing individuals and pairwise interactions, respectively. However, real-world systems grow with time and include many higher-order interactions. Such systems with higher-order interactions can be well described by a simplicial complex (SC), which is a type of hypergraph, consisting of simplexes representing sets of multiple interacting nodes. Here, capturing the properties of growing real-world systems, we propose a growing random SC (GRSC) model where a node is added and a higher dimensional simplex is established among nodes at each time step. We then rigorously derive various percolation properties in the GRSC. Finally, we confirm that the system exhibits an infinite-order phase transition as higher-order interactions accelerate the growth of the system and result in the advanced emergence of a giant cluster. This work can pave the way for interpreting growing complex systems with higher-order interactions such as social, biological, brain, and technological systems.

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