Simultaneous Degradation of Percolation and Cascade Robustness Under Targeted Hub Removal

Abstract

Targeted hub removal is known to weaken connectivity in heterogeneous networks. We show that in Barab\'asi--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 pc=0.174 to 0.776 and, at =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 z1 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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