English

Hybrid models for complex fluids with multipolar interactions

Chaotic Dynamics 2012-10-23 v2 Soft Condensed Matter Fluid Dynamics

Abstract

Multipolar order in complex fluids is described by statistical correlations. This paper presents a novel dynamical approach, which accounts for microscopic effects on the order parameter space. Indeed, the order parameter field is replaced by a statistical distribution function that is carried by the fluid flow. Inspired by Doi's model of colloidal suspensions, the present theory is derived from a hybrid moment closure for Yang-Mills Vlasov plasmas. This hybrid formulation is constructed under the assumption that inertial effects dominate over dissipative phenomena, so that the total energy is conserved. After presenting the basic geometric properties of the theory, the effect of Yang-Mills fields is considered and a direct application is presented to magnetized fluids with quadrupolar order (spin nematic phases). Hybrid models are also formulated for complex fluids with symmetry breaking. For the special case of liquid crystals, the moment method can be applied to the hybrid formulation to study to the dynamics of cubatic phases.

Keywords

Cite

@article{arxiv.1011.4389,
  title  = {Hybrid models for complex fluids with multipolar interactions},
  author = {Cesare Tronci},
  journal= {arXiv preprint arXiv:1011.4389},
  year   = {2012}
}

Comments

29 pages; one figure. To appear in J. Geom. Mech

R2 v1 2026-06-21T16:46:07.063Z