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Autori principali: Hofmann, Kay, Dormann, Kay-Robert, Liebchen, Benno, Schmid, Friederike
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2507.16388
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author Hofmann, Kay
Dormann, Kay-Robert
Liebchen, Benno
Schmid, Friederike
author_facet Hofmann, Kay
Dormann, Kay-Robert
Liebchen, Benno
Schmid, Friederike
contents In simulations of colloidal matter, frictional contacts between particles are often neglected. For spherical colloids, such an approximation can be problematic, since frictional contacts couple translational and rotational degrees of freedom, which may affect the collective behavior of, e.g., colloids under shear and chiral active matter. Deterministic models for frictional contacts have been proposed in the granular matter community. On the colloidal scale, however, thermal fluctuations are important and should be included in a thermodynamically consistent manner. Here, we derive the correct fluctuation-dissipation relation for linear and nonlinear instantaneous frictional contact interactions. Among other, this generates a new generalized class of dissipative particle dynamics (DPD) thermostats with rotation-translation coupling. We demonstrate effects of frictional contact interactions using the examples of Poiseuille flow and motility induced phase separation in active Langevin particles.
format Preprint
id arxiv_https___arxiv_org_abs_2507_16388
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A general model for frictional contacts in colloidal systems
Hofmann, Kay
Dormann, Kay-Robert
Liebchen, Benno
Schmid, Friederike
Soft Condensed Matter
Computational Physics
In simulations of colloidal matter, frictional contacts between particles are often neglected. For spherical colloids, such an approximation can be problematic, since frictional contacts couple translational and rotational degrees of freedom, which may affect the collective behavior of, e.g., colloids under shear and chiral active matter. Deterministic models for frictional contacts have been proposed in the granular matter community. On the colloidal scale, however, thermal fluctuations are important and should be included in a thermodynamically consistent manner. Here, we derive the correct fluctuation-dissipation relation for linear and nonlinear instantaneous frictional contact interactions. Among other, this generates a new generalized class of dissipative particle dynamics (DPD) thermostats with rotation-translation coupling. We demonstrate effects of frictional contact interactions using the examples of Poiseuille flow and motility induced phase separation in active Langevin particles.
title A general model for frictional contacts in colloidal systems
topic Soft Condensed Matter
Computational Physics
url https://arxiv.org/abs/2507.16388