Critical phenomena in active matter

We investigate the effect of self-propulsion on a mean-field order-disorder transition. Starting from a φ^{4} scalar field theory subject to an exponentially correlated noise, we exploit the unified colored-noise approximation to map the nonequilibrium active dynamics onto an effective equilibrium o...

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Veröffentlicht in:	Physical review. E 2016-11, Vol.94 (5-1), p.052602-052602, Article 052602
Hauptverfasser:	Paoluzzi, M, Maggi, C, Marini Bettolo Marconi, U, Gnan, N
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container_title	Physical review. E
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creator	Paoluzzi, M Maggi, C Marini Bettolo Marconi, U Gnan, N
description	We investigate the effect of self-propulsion on a mean-field order-disorder transition. Starting from a φ^{4} scalar field theory subject to an exponentially correlated noise, we exploit the unified colored-noise approximation to map the nonequilibrium active dynamics onto an effective equilibrium one. This allows us to follow the evolution of the second-order critical point as a function of the noise parameters: the correlation time τ and the noise strength D. Our results suggest that the universality class of the model remains unchanged. We also estimate the effect of Gaussian fluctuations on the mean-field approximation finding an Ornstein-Zernike-like expression for the static structure factor at long wavelengths. Finally, to assess the validity of our predictions, we compare the mean-field theoretical results with numerical simulations of active Lennard-Jones particles in two and three dimensions, finding good qualitative agreement at small τ values.
doi_str_mv	10.1103/PhysRevE.94.052602
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