English

Enumerating rigid sphere packings

Soft Condensed Matter 2016-05-23 v2 Mathematical Physics Metric Geometry math.MP

Abstract

Packing problems, which ask how to arrange a collection of objects in space to meet certain criteria, are important in a great many physical and biological systems, where geometrical arrangements at small scales control behaviour at larger ones. In many systems there is no single, optimal packing that dominates, but rather one must understand the entire set of possible packings. As a step in this direction we enumerate rigid clusters of identical hard spheres for n14n\leq 14, and clusters with the maximum number of contacts for n19n\leq 19. A rigid cluster is one that cannot be continuously deformed while maintaining all contacts. This is a nonlinear notion that arises naturally because such clusters are the metastable states when the spheres interact with a short-range potential, as is the case in many nano- or micro-scale systems. We expect these lists are nearly complete, except for a small number of highly singular clusters (linearly floppy but nonlinearly rigid.) The data contains some major geometrical surprises, such as the prevalence of hypostatic clusters: those with less than the 3n63n-6 contacts generically necessary for rigidity. We discuss these and several other unusual clusters, whose geometries may shed insight into physical mechanisms, pose mathematical and computational problems, or bring inspiration for designing new materials.

Keywords

Cite

@article{arxiv.1407.3285,
  title  = {Enumerating rigid sphere packings},
  author = {Miranda C. Holmes-Cerfon},
  journal= {arXiv preprint arXiv:1407.3285},
  year   = {2016}
}

Comments

11 pages text + 7 pages Supplementary Material; to appear in SIAM Review

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