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Main Author: Sanchez, Federico Hernan Cachero
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2603.04838
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author Sanchez, Federico Hernan Cachero
author_facet Sanchez, Federico Hernan Cachero
contents Targeted hub removal is known to weaken connectivity in heterogeneous networks. We show that in Barabási--Albert networks the same intervention can also shift Watts threshold dynamics across the cascade critical point. For BA networks with $N=2{,}000$ and $m=2$, removing the top 10\% of nodes by degree raises the bond-percolation threshold from $p_c=0.174$ to $0.776$ and, at $φ=0.22$, increases mean cascade size from $0.86\%$ (95\% CI 0.43--1.30) to $23.1\%$ (21.3--24.9). A controlled hub-vulnerability experiment on fixed topology shows that most of this cascade effect is dynamical: lowering hub activation thresholds produces much larger cascades even without deleting nodes, while deletion partly offsets the increase by removing edges. Using a configuration-model approximation, we derive the post-removal branching factor $z_1$ and identify a window in which the original network is subcritical but the hub-removed network is supercritical. The effect persists across system sizes and is not seen in matched ER or WS controls. These results identify a regime in which hub removal simultaneously worsens connectivity and cascade exposure in BA networks.
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institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Simultaneous Degradation of Percolation and Cascade Robustness Under Targeted Hub Removal
Sanchez, Federico Hernan Cachero
Physics and Society
Targeted hub removal is known to weaken connectivity in heterogeneous networks. We show that in Barabási--Albert networks the same intervention can also shift Watts threshold dynamics across the cascade critical point. For BA networks with $N=2{,}000$ and $m=2$, removing the top 10\% of nodes by degree raises the bond-percolation threshold from $p_c=0.174$ to $0.776$ and, at $φ=0.22$, increases mean cascade size from $0.86\%$ (95\% CI 0.43--1.30) to $23.1\%$ (21.3--24.9). A controlled hub-vulnerability experiment on fixed topology shows that most of this cascade effect is dynamical: lowering hub activation thresholds produces much larger cascades even without deleting nodes, while deletion partly offsets the increase by removing edges. Using a configuration-model approximation, we derive the post-removal branching factor $z_1$ and identify a window in which the original network is subcritical but the hub-removed network is supercritical. The effect persists across system sizes and is not seen in matched ER or WS controls. These results identify a regime in which hub removal simultaneously worsens connectivity and cascade exposure in BA networks.
title Simultaneous Degradation of Percolation and Cascade Robustness Under Targeted Hub Removal
topic Physics and Society
url https://arxiv.org/abs/2603.04838