Phyllotaxis: a non conventional crystalline solution to packing efficiency in situations with radial symmetry

Phyllotaxis, the search for the most homogeneous and dense organizations of small disks inside a large circular domain, was first developed to analyze arrangements of leaves or florets in plants. Then it has become an object of study not only in botany, but also in mathematics, computer simulations...

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Bibliographic Details
Published in:arXiv.org 2012-04
Main Authors: Jean-François Sadoc, Rivier, Nicolas, Charvolin, Jean
Format: Article
Language:English
Subjects:
Algorithms
Botany
Computer simulation
Condensed matter physics
Crystal defects
Crystallography
Delaunay triangulation
Disks
Symmetry
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Summary:Phyllotaxis, the search for the most homogeneous and dense organizations of small disks inside a large circular domain, was first developed to analyze arrangements of leaves or florets in plants. Then it has become an object of study not only in botany, but also in mathematics, computer simulations and physics. Although the mathematical solution is now well known, an algorithm setting out the centers of the small disks on a Fermat spiral, the very nature of this organization and its properties of symmetry remain to be examined. The purpose of this paper is to describe a phyllotactic organization of points through its Voronoi cells and Delaunay triangulation and to refer to the concept of defects developed in condensed matter physics. The topological constraint of circular symmetry introduces an original inflation-deflation symmetry taking the place of the translational and rotational symmetries of classical crystallography.
ISSN:2331-8422