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Emergence of disconnected clusters in heterogeneous complex systems

Physics

Emergence of disconnected clusters in heterogeneous complex systems

I. A. Kovács and R. Juhász

This groundbreaking research by István A. Kovács and Róbert Juhász challenges the conventional view of correlated regions in complex systems, demonstrating that critical dynamics can be dictated by a highly correlated yet spatially disconnected cluster. Their work, utilizing the disordered contact process model, opens new avenues in understanding quantum systems and disorder.

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Playback language: English
Abstract
This paper challenges the traditional understanding of correlated regions in complex systems as densely connected clusters, proposing that highly correlated sites can be inherently disconnected. Using the disordered contact process (DCP) as a model, the authors demonstrate through numerical simulations and a strong disorder renormalization group (SDRG) technique that critical dynamics are governed by one highly correlated but spatially disconnected cluster. This counter-intuitive finding suggests functional similarity doesn't necessitate physical connectivity, extending to quantum systems such as the disordered quantum Ising model.
Publisher
Scientific Reports
Published On
Dec 14, 2020
Authors
István A. Kovács, Róbert Juhász
Tags
correlated regions
complex systems
disordered contact process
critical dynamics
quantum systems
disorder
renormalization group

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