The statistical physics of active matter: From self-catalytic colloids to living cells

The statistical physics of active matter: From self-catalytic colloids to living cells

These lecture notes are designed to provide a brief introduction into the phenomenology of active matter and to present some of the analytical tools used to rationalize the emergent behavior of active systems. Such systems are made of interacting agents able to extract energy stored in the environme...

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Bibliographic Details
Published in:Physica A Vol. 504; pp. 106 - 120
Main Authors: Fodor, Étienne, Cristina Marchetti, M.
Format: Journal Article
Language:English
Published: Elsevier B.V 15-08-2018
Subjects:
Collective directed motion
Flocks
Living cells
Phase separation
Rigidity transition
Self-propelled particles
Rigidity transition
Flocks
Living cells
Self-propelled particles
Phase separation
Collective directed motion
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Summary:These lecture notes are designed to provide a brief introduction into the phenomenology of active matter and to present some of the analytical tools used to rationalize the emergent behavior of active systems. Such systems are made of interacting agents able to extract energy stored in the environment to produce sustained directed motion. The local conversion of energy into mechanical work drives the system far from equilibrium, yielding new dynamics and phases. The emerging phenomena can be classified depending on the symmetry of the active particles and on the type of microscopic interactions. We focus here on steric and aligning interactions, as well as interactions driven by shape changes. The models that we present are all inspired by experimental realizations of either synthetic, biomimetic or living systems. Based on minimal ingredients, they are meant to bring a simple and synthetic understanding of the complex phenomenology of active matter.
ISSN:0378-4371
1873-2119
DOI:10.1016/j.physa.2017.12.137