The 2020 motile active matter roadmap

Author:

Gompper GerhardORCID,Winkler Roland GORCID,Speck ThomasORCID,Solon AlexandreORCID,Nardini Cesare,Peruani FernandoORCID,Löwen HartmutORCID,Golestanian RaminORCID,Kaupp U BenjaminORCID,Alvarez LuisORCID,Kiørboe ThomasORCID,Lauga EricORCID,Poon Wilson C KORCID,DeSimone AntonioORCID,Muiños-Landin Santiago,Fischer Alexander,Söker Nicola A,Cichos FrankORCID,Kapral RaymondORCID,Gaspard Pierre,Ripoll MarisolORCID,Sagues FrancescORCID,Doostmohammadi AminORCID,Yeomans Julia MORCID,Aranson Igor SORCID,Bechinger ClemensORCID,Stark HolgerORCID,Hemelrijk Charlotte KORCID,Nedelec François JORCID,Sarkar Trinish,Aryaksama Thibault,Lacroix Mathilde,Duclos Guillaume,Yashunsky Victor,Silberzan PascalORCID,Arroyo MarinoORCID,Kale Sohan

Abstract

Abstract Activity and autonomous motion are fundamental in living and engineering systems. This has stimulated the new field of ‘active matter’ in recent years, which focuses on the physical aspects of propulsion mechanisms, and on motility-induced emergent collective behavior of a larger number of identical agents. The scale of agents ranges from nanomotors and microswimmers, to cells, fish, birds, and people. Inspired by biological microswimmers, various designs of autonomous synthetic nano- and micromachines have been proposed. Such machines provide the basis for multifunctional, highly responsive, intelligent (artificial) active materials, which exhibit emergent behavior and the ability to perform tasks in response to external stimuli. A major challenge for understanding and designing active matter is their inherent nonequilibrium nature due to persistent energy consumption, which invalidates equilibrium concepts such as free energy, detailed balance, and time-reversal symmetry. Unraveling, predicting, and controlling the behavior of active matter is a truly interdisciplinary endeavor at the interface of biology, chemistry, ecology, engineering, mathematics, and physics. The vast complexity of phenomena and mechanisms involved in the self-organization and dynamics of motile active matter comprises a major challenge. Hence, to advance, and eventually reach a comprehensive understanding, this important research area requires a concerted, synergetic approach of the various disciplines. The 2020 motile active matter roadmap of Journal of Physics: Condensed Matter addresses the current state of the art of the field and provides guidance for both students as well as established scientists in their efforts to advance this fascinating area.

Funder

Deutsche Forschungsgemeinschaft

Publisher

IOP Publishing

Subject

Condensed Matter Physics,General Materials Science

Reference244 articles.

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