English

Geometric background charge: dislocations on capillary bridges

Soft Condensed Matter 2012-12-11 v1

Abstract

Recent experiments have shown that colloidal crystals confined to weakly curved capillary bridges introduce groups of dislocations organized into `pleats' as means to relieve the stress caused by the Gaussian curvature of the surface. We consider the onset of this curvature-screening mechanism, by examining the energetics of isolated dislocations and interstitials on capillary bridges with free boundaries. The boundary provides an essential contribution to the problem, akin to a background charge that "neutralizes" the unbalanced integrated curvature of the surface. This makes it favorable for topologically neutral dislocations and groups of dislocations - rather than topologically charged disclinations and scars - to relieve the stress caused by the unbalanced gaussian curvature of the surface. This effect applies to any crystal on a surface with non-vanishing integrated Gaussian curvature and stress-free boundary conditions. We corroborate the analytic results by numerically computing the energetics of a defected lattice of springs confined to surfaces with weak positive and negative curvature

Keywords

Cite

@article{arxiv.1206.4159,
  title  = {Geometric background charge: dislocations on capillary bridges},
  author = {William Irvine and Vincenzo Vitelli},
  journal= {arXiv preprint arXiv:1206.4159},
  year   = {2012}
}

Comments

7 pages, 4 figures

R2 v1 2026-06-21T21:21:47.261Z