Colloidal hard spheres: Triumphs, challenges, and mysteries
Résumé
The simplicity of hard spheres as a model system is deceptive. Although the particles interact
solely through volume exclusion, that nevertheless suffices for a wealth of static and dynamical phenomena to emerge, making the model an important target for achieving a comprehensive
understanding of matter. In addition, while real colloidal suspensions are typically governed by
complex interactions, Pusey and Van Megen [Nature 320 340–342 (1986)] demonstrated that suitably tuned suspensions result in hard-sphere like behavior, thus bringing a valuable experimental
complement to the celebrated theoretical model. Colloidal hard spheres are thus both a material
in their own right and a platform upon which phenomena exhibited by simple materials can be
explored in great detail. These various purposes enable a particular synergy between experiment,
theory and computer simulation. Here we review the extensive body of work on hard spheres,
ranging from their equilibrium properties such as phase behavior, interfaces and confinement to
some of the non–equilibrium phenomena they exhibit such as sedimentation, glass formation and
nucleation
Domaines
Matière Molle [cond-mat.soft]Origine | Fichiers produits par l'(les) auteur(s) |
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