Critical adsorption and critical Casimir forces for geometrically structured confinements

We study the behavior of fluids, confined by geometrically structured substrates, upon approaching a critical point at T=T(c) in their bulk phase diagram. As generic substrate structures periodic arrays of wedges and ridges are considered. Based on general renormalization group arguments we calculat...

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Veröffentlicht in:	The Journal of chemical physics 2008-09, Vol.129 (12), p.124716-124716
Hauptverfasser:	Tröndle, M, Harnau, L, Dietrich, S
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Sprache:	eng
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creator	Tröndle, M Harnau, L Dietrich, S
description	We study the behavior of fluids, confined by geometrically structured substrates, upon approaching a critical point at T=T(c) in their bulk phase diagram. As generic substrate structures periodic arrays of wedges and ridges are considered. Based on general renormalization group arguments we calculate, within mean field approximation, the universal scaling functions for order parameter profiles of a fluid close to a single structured substrate and discuss the decay of its spatial variation into the bulk. We compare the excess adsorption at corrugated substrates to the one at planar walls. The confinement of a critical fluid by two walls generates effective critical Casimir forces between them. We calculate corresponding universal scaling functions for the normal critical Casimir force between a flat and a geometrically structured substrate as well as the lateral critical Casimir force between two identically patterned substrates.
doi_str_mv	10.1063/1.2977999
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title	Critical adsorption and critical Casimir forces for geometrically structured confinements
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