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Dynamic evolution of hyperuniformity in a driven dissipative colloidal system

Ü. Seleme Nizam, Ghaith Makey, Michaël Barbier, S. Kahraman, Esin Demir, Ehsan E Shafigh, Sezin Galioğlu, Danial Vahabli, Sercan Hüsnügil, Muhammed H Güneş, Efe Yelesti, Serim Ilday

2021Journal of Physics Condensed Matter22 citationsDOIOpen Access PDF

Abstract

Hyperuniformity is evolving to become a unifying concept that can help classify and characterize equilibrium and nonequilibrium states of matter. Therefore, understanding the extent of hyperuniformity in dissipative systems is critical. Here, we study the dynamic evolution of hyperuniformity in a driven dissipative colloidal system. We experimentally show and numerically verify that the hyperuniformity of a colloidal crystal is robust against various lattice imperfections and environmental perturbations. This robustness even manifests during crystal disassembly as the system switches between strong (class I), logarithmic (class II), weak (class III), and non-hyperuniform states. To aid analyses, we developed a comprehensive computational toolbox, enabling real-time characterization of hyperuniformity in real- and reciprocal-spaces together with the evolution of several order metric features, and measurements showing the effect of external perturbations on the spatiotemporal distribution of the particles. Our findings provide a new framework to understand the basic principles that drive a dissipative system to a hyperuniform state.

Topics & Concepts

Dissipative systemNon-equilibrium thermodynamicsRobustness (evolution)Statistical physicsComplex systemLattice (music)Computer sciencePhysicsChemistryArtificial intelligenceThermodynamicsAcousticsBiochemistryGeneMaterial Dynamics and PropertiesTheoretical and Computational PhysicsEcosystem dynamics and resilience
Dynamic evolution of hyperuniformity in a driven dissipative colloidal system | Litcius