2002
DOI: 10.1088/0953-8984/14/19/310
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Hydrodynamic fluctuation forces

B I Ivlev

Abstract: Two interaction mechanisms of particles in a fluid are proposed on base of forces, mediated by hydrodynamic thermal fluctuations. The first one is similar to the conventional van der Waals interaction, but instead of been mediated by electromagnetic fluctuations, it is mediated by fluctuations of hydrodynamic sound waves. The second one is due to a thermal drift of particles to the region with a bigger effective mass, which is formed by the involved surrounding fluid and depends on an inter-particle distance. … Show more

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Cited by 10 publications
(17 citation statements)
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“…͑15͒, in this case V FL ϭ(T/2)ln R in accordance with Ref. 24. In the limit ⍀ 0 →0 and ⍀→0 the fluctuation energy ͑16͒ is zero 25 since, in this case, particle positions are marked only by mass difference and an energy of thermal fluctuation does not depend on mass ͑a dynamical parameter͒.…”
Section: ͑15͒supporting
confidence: 86%
“…͑15͒, in this case V FL ϭ(T/2)ln R in accordance with Ref. 24. In the limit ⍀ 0 →0 and ⍀→0 the fluctuation energy ͑16͒ is zero 25 since, in this case, particle positions are marked only by mass difference and an energy of thermal fluctuation does not depend on mass ͑a dynamical parameter͒.…”
Section: ͑15͒supporting
confidence: 86%
“…where m 2 = k 2 + λ 2 and λ is the longitudinal decay constant defined in Eq. (41). We will substitute this result into Eqs.…”
Section: Infinite Fluidmentioning
confidence: 99%
“…While this latter argument is appropriate in electrodynamics, because an infinite frequency corresponds to the vacuum, it is not reasonable in hydrodynamics, where the whole basis of the continuum hydrodynamic theory breaks down before any such limit could be enforced [33]. Therefore, both approaches to the problem of hydrodynamic Casimir-like interactions have strong limitations and subsequent developments failed to conclusively prove either point of view [41].…”
Section: Introductionmentioning
confidence: 99%
“…On the theoretical side, different models have been proposed to try to explain the origin of attractive interaction in the micrometer size range of quasi-two-dimensional colloidal systems confined at fluid-fluid interfaces, some based on capillary interactions [25,26], others on capillary wave fluctuations [27]. However, no theory to date can explain the origin of the attractive forces convincingly.…”
Section: Introductionmentioning
confidence: 99%