2015
DOI: 10.1039/c4nr06521b
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Static friction scaling of physisorbed islands: the key is in the edge

Abstract: The static friction preventing the free sliding of nanosized rare gas solid islands physisorbed on incommensurate crystalline surfaces is not completely understood. Simulations modeled on Kr/Pb(111) highlight the importance and the scaling behavior of the island's edge contribution to static friction.

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Cited by 56 publications
(67 citation statements)
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“…It was demonstrated by simulation that rare gas islands on a metal indeed yield 0.25 < γ < 0.37, depending on the shape of the edge, as shown in Fig. 4 [18]. A fourth result emerged in a recently proposed frictional emulator, consisting of short cold ion N-member chains sliding in an optical lattice [19].…”
Section: Solid Superlubricitymentioning
confidence: 82%
See 1 more Smart Citation
“…It was demonstrated by simulation that rare gas islands on a metal indeed yield 0.25 < γ < 0.37, depending on the shape of the edge, as shown in Fig. 4 [18]. A fourth result emerged in a recently proposed frictional emulator, consisting of short cold ion N-member chains sliding in an optical lattice [19].…”
Section: Solid Superlubricitymentioning
confidence: 82%
“…The sublinear scaling indicates superlubricity; residual friction is due to the island edge (Reproduced with permission from Ref. [18], Copyright 2014, Royal Society of Chemistry). which the superlubric drop of friction developed as N increased from the value of one.…”
Section: Solid Superlubricitymentioning
confidence: 99%
“…Until recently, it has been demonstrated or implied in a relatively small number of cases [29,[42][43][44][45][46]. There are now more evidences of superlubric behavior in cluster nanomanipulation [32,33,47], sliding colloidal layers [48][49][50], and inertially driven rare-gas adsorbates [51,52] (see Fig. 2).…”
Section: Contact Area Dependence and New Perspectives In Superlubricitymentioning
confidence: 99%
“…The notable exception is however the second excitation, showing a forward jump. This marginal stick-slip behaviour is actually due to the weak but nonzero pinning caused by the island edge that hinder the entrance and exit of solitons [15], a subtle but real feature which in this case is efficiently and unbiasedly uncovered through this excitation.…”
Section: Work Distributionmentioning
confidence: 99%
“…Indeed, the latter correspond to internal relaxations of the island not associated with the collective sliding. In the specific case these corrections are related to the formation/destruction of incommensurate solitons induced on the island by the external potential [15].…”
Section: Fig 3: (A)mentioning
confidence: 99%