Abstract
The paradigm of interdependent networks has recently been manifested in experimentally testable lab setup of interdependent superconducting networks. This system experiences an abrupt transition due to the thermal dissipation between the networks but its underlying mechanism remains elusive. Here we study the critical behavior and the underlying mechanism of the transition, unveiling its unique microscopic nature. The microscopic characteristics of the transition result in a macroscopic long-living plateau that lasts for thousands of seconds and increases with the size of the system. We characterize the critical behavior of the transition and find that the critical exponents are consistent with those predicted theoretically for percolation of abstract interdependent networks and interdependent ferromagnetic networks, supporting a common universal origin of interdependent systems.
Original language | English |
---|---|
Publisher | arXiv preprint |
State | Published - 5 Mar 2024 |
Keywords
- physics.soc-ph