2013
DOI: 10.1063/1.4791554
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Many-body effects for critical Casimir forces

Abstract: Within mean-field theory we calculate the scaling functions associated with critical Casimir forces for a system consisting of two spherical colloids immersed in a binary liquid mixture near its consolute point and facing a planar, homogeneous substrate. For several geometrical arrangements and boundary conditions we analyze the normal and the lateral critical Casimir forces acting on one of the two colloids. We find interesting features such as a change of sign of these forces upon varying either the position… Show more

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Cited by 36 publications
(45 citation statements)
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“…They have observed that many-body effects become rather significant as the solvent is brought thermodynamically close to a critical point. They have also found that many-body effects tgmattos@des.cefetmg.br tend to decrease the net attraction between colloids, which contrasts with previous results from mean-field calculations lor a system ol two spherical colloids facing a planar homogeneous substrate [51], In the latter case it was shown that many-body effects due to the presence of a substrate do not exhibit a uniform trend but can either increase or decrease the net attraction between colloids. In order to deepen the understanding of many-body effects concerning critical Casimir interactions we consider a system of three colloidal particles under the influence of CCFs.…”
Section: Introductionmentioning
confidence: 77%
“…They have observed that many-body effects become rather significant as the solvent is brought thermodynamically close to a critical point. They have also found that many-body effects tgmattos@des.cefetmg.br tend to decrease the net attraction between colloids, which contrasts with previous results from mean-field calculations lor a system ol two spherical colloids facing a planar homogeneous substrate [51], In the latter case it was shown that many-body effects due to the presence of a substrate do not exhibit a uniform trend but can either increase or decrease the net attraction between colloids. In order to deepen the understanding of many-body effects concerning critical Casimir interactions we consider a system of three colloidal particles under the influence of CCFs.…”
Section: Introductionmentioning
confidence: 77%
“…39 We conclude that the longer range of the interaction at similar interaction magnitude makes many-body effects more pronounced at the critical solvent composition, in agreement with recent mean field estimates of many-body critical Casimir forces in a system of two colloids near a wall. 40 We note, however, that for the few colloid-colloid-wall configurations investigated in that study, many-body forces often increased rather than decreased the colloid-colloid attraction. The downward shift of the calculated gas-liquid curve relative to the experimental data observed here suggests that many-body forces in systems of many colloids decrease the net attractive force between the colloids.…”
Section: A Phase Diagrammentioning
confidence: 91%
“…As far as the theoretical side is concerned, it was de Gennes who first obtained the CCF between spherical particles [53] considering a local freeenergy functional. Among the other techniques used to study the CCF in sphere-plate and sphere-sphere geometries are the Ornstein-Zernike theory [54], conformal invariance methods [55][56][57], Monte Carlo calculations [58][59][60][61][62][63][64][65][66][67], fluid-particle dynamics simulations [68,69], mean-field type [70][71][72][73][74] and density-functional [75] theory calculations combined with the Derjaguin approximation [44,[76][77][78]. Several review articles and works [8,[79][80][81][82] summarize both the experimental and theoretical results presented there.…”
Section: Introductionmentioning
confidence: 99%