AUTHOR=Sánchez-Puig Fernanda , Zapata Octavio , Pineda Omar K. , Iñiguez Gerardo , Gershenson Carlos 

TITLE=Heterogeneity extends criticality

JOURNAL=Frontiers in Complex Systems

VOLUME=1

YEAR=2023

URL=https://www.frontiersin.org/journals/complex-systems/articles/10.3389/fcpxs.2023.1111486

DOI=10.3389/fcpxs.2023.1111486

ISSN=2813-6187

ABSTRACT=<p>Criticality has been proposed as a mechanism for the emergence of complexity, life, and computation, as it exhibits a balance between order and chaos. In classic models of complex systems where structure and dynamics are considered homogeneous, criticality is restricted to phase transitions, leading either to robust (ordered) or fragile (chaotic) phases for most of the parameter space. Many real-world complex systems, however, are not homogeneous. Some elements change in time faster than others, with slower elements (usually the most relevant) providing robustness, and faster ones being adaptive. Structural patterns of connectivity are also typically heterogeneous, characterized by few elements with many interactions and most elements with only a few. Here we take a few traditionally homogeneous dynamical models and explore their heterogeneous versions, finding evidence that heterogeneity extends criticality. Thus, parameter fine-tuning is not necessary to reach a phase transition and obtain the benefits of (homogeneous) criticality. Simply adding heterogeneity can extend criticality, making the search/evolution of complex systems faster and more reliable. Our results add theoretical support for the ubiquitous presence of heterogeneity in physical, biological, social, and technological systems, as natural selection can exploit heterogeneity to evolve complexity “for free”. In artificial systems and biological design, heterogeneity may also be used to extend the parameter range that allows for criticality.</p>