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Bubble Raft Model for a Paraboloidal Crystal

Soft Condensed Matter 2008-02-28 v1
Authors: Mark J. Bowick , Luca Giomi , Homin Shin , Creighton K. Thomas
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Abstract

We investigate crystalline order on a two-dimensional paraboloid of revolution by assembling a single layer of millimeter-sized soap bubbles on the surface of a rotating liquid, thus extending the classic work of Bragg and Nye on planar soap bubble rafts. Topological constraints require crystalline configurations to contain a certain minimum number of topological defects such as disclinations or grain boundary scars whose structure is analyzed as a function of the aspect ratio of the paraboloid. We find the defect structure to agree with theoretical predictions and propose a mechanism for scar nucleation in the presence of large Gaussian curvature.

Keywords

crystal structure and quasicrystals bubble dynamics large-scale structure of the universe

Cite

@article{arxiv.0709.2731,
  title  = {Bubble Raft Model for a Paraboloidal Crystal},
  author = {Mark J. Bowick and Luca Giomi and Homin Shin and Creighton K. Thomas},
  journal= {arXiv preprint arXiv:0709.2731},
  year   = {2008}
}

Comments

4 pages, 4 figures

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