Article (Scientific journals)
Novel structures for optimal space partitions
Opsomer, Eric; Vandewalle, Nicolas
2016In New Journal of Physics
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Keywords :
Space partitioning; Kelvin's problem; Voronoi tesselation
Abstract :
[en] Partitioning space into polyhedra with a minimum total surface area is a fundamental question in science and mathematics. In 1887, Lord Kelvin conjectured that the optimal partition of space is obtained with a 14-faced space-filling polyhedron, called tetrakaidecahedron. Kelvin’s conjecture resisted a century until Weaire and Phelan proposed in 1994 a new structure, made of eight polyhedra, obtained from numerical simulations. Herein, we propose a stochastic method for finding efficient polyhedral structures, maximizing the mean isoperimeter Q, instead of minimizing total area. We show that novel optimal structures emerge with non-equal cell volumes and uncurved facets. A partition made of 24 polyhedra, is found to surpass the previous known structures. Our work suggests that other structures with high isoperimeter values are still to be discovered in the pursuit of optimal space partitions.
Disciplines :
Physics
Author, co-author :
Opsomer, Eric  ;  Université de Liège > Département de physique > Physique statistique
Vandewalle, Nicolas  ;  Université de Liège > Département de physique > Physique statistique
Language :
English
Title :
Novel structures for optimal space partitions
Publication date :
07 October 2016
Journal title :
New Journal of Physics
ISSN :
1367-2630
Publisher :
Institute of Physics, Bristol, United Kingdom
Peer reviewed :
Peer Reviewed verified by ORBi
Available on ORBi :
since 09 January 2017

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