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Literature DB >> 15007764

Capillary instabilities by fluctuation induced forces.

Abstract

The spontaneous break-up of thin films is commonly attributed to the destabilizing effect of van der Waals forces. Dispersion forces can be considered in terms of the confinement of the electromagnetic fluctuation spectrum. The principle of confinement is more general than the usual argument of interacting dipole fluctuations. It includes also disjoining pressures that are caused by thermal fluctuations. In this context, we review recent publications on the dewetting of thin polymer films, and argue that the presence of an acoustic disjoining pressure is necessary to adequately describe some of these experimental results.

Entities: Chemical Disease

Year: 2004 PMID： 15007764 DOI： 10.1140/epje/e2004-00005-8

Source DB: PubMed Journal: Eur Phys J E Soft Matter ISSN： 1292-8941 Impact factor: 1.890

12 in total

Capillary instabilities by fluctuation induced forces.

1. Electrically induced structure formation and pattern transfer

2. Dewetting at the liquid-liquid interface.

3. Dewetting Modes of Thin Metallic Films: Nucleation of Holes and Spinodal Dewetting.

4. Dewetting patterns and molecular forces: a reconciliation.

5. Dynamic instability of strongly confined thin polymer films in spinodal dewetting.

6. The Strength of Long-Range Forces across Thin Liquid Films.

7. Open questions and promising new fields in dewetting.

8. Unstable thin films: new questions.

9. Dynamics of dewetting.

10. Phonon attenuation in amorphous solids studied by picosecond ultrasonics.

1. Summary and conclusions: Progress in our understanding of instabilities in thin films.