Planar reinforced k-out percolation

Gideon Amir; Markus Heydenreich; Christian Hirsch

doi:10.1016/j.spa.2025.104706

Planar reinforced k-out percolation

Gideon Amir, Markus Heydenreich, Christian Hirsch

Department of Mathematics

Research output: Contribution to journal › Article › peer-review

Abstract

We investigate the percolation properties of a planar reinforced network model. In this model, at every time step, every vertex chooses k⩾1 incident edges, whose weight is then increased by 1. The choice of this k-tuple occurs proportionally to the product of the corresponding edge weights raised to some power α>0. Our investigations are guided by the conjecture that the set of infinitely reinforced edges percolates for k=2 and α≫1. First, we study the case α=∞, where we show the percolation for k=2 after adding arbitrarily sparse independent sprinkling and also allowing dual connectivities. We also derive a finite-size criterion for percolation without sprinkling. Then, we extend this finite-size criterion to the α<∞ case. Finally, we verify these conditions numerically.

Original language	English
Article number	104706
Journal	Stochastic Processes and their Applications
Volume	189
DOIs	https://doi.org/10.1016/j.spa.2025.104706
State	Published - Nov 2025

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abstract = "We investigate the percolation properties of a planar reinforced network model. In this model, at every time step, every vertex chooses k⩾1 incident edges, whose weight is then increased by 1. The choice of this k-tuple occurs proportionally to the product of the corresponding edge weights raised to some power α>0. Our investigations are guided by the conjecture that the set of infinitely reinforced edges percolates for k=2 and α≫1. First, we study the case α=∞, where we show the percolation for k=2 after adding arbitrarily sparse independent sprinkling and also allowing dual connectivities. We also derive a finite-size criterion for percolation without sprinkling. Then, we extend this finite-size criterion to the α<∞ case. Finally, we verify these conditions numerically.",

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AB - We investigate the percolation properties of a planar reinforced network model. In this model, at every time step, every vertex chooses k⩾1 incident edges, whose weight is then increased by 1. The choice of this k-tuple occurs proportionally to the product of the corresponding edge weights raised to some power α>0. Our investigations are guided by the conjecture that the set of infinitely reinforced edges percolates for k=2 and α≫1. First, we study the case α=∞, where we show the percolation for k=2 after adding arbitrarily sparse independent sprinkling and also allowing dual connectivities. We also derive a finite-size criterion for percolation without sprinkling. Then, we extend this finite-size criterion to the α<∞ case. Finally, we verify these conditions numerically.

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Planar reinforced k-out percolation

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