An Icosahedral Quasicrystal as a Packing of Regular Tetrahedra

• Authors: F. Fang , J. Kovacs , G. Sadler , K. Irwin
• Languages of publication: EN

Abstracts

EN

We present the construction of a dense, quasicrystalline packing of regular tetrahedra with icosahedral symmetry. This quasicrystalline packing was achieved through two independent approaches. The first approach originates in the Elser-Sloane 4D quasicrystal. A 3D slice of the quasicrystal contains a few types of prototiles. An initial structure is obtained by decorating these prototiles with tetrahedra. This initial structure is then modified using the Elser-Sloane quasicrystal itself as a guide. The second approach proceeds by decorating the prolate and oblate rhombohedra in a 3-dimensional Ammann tiling. The resulting quasicrystal has a packing density of 59.783%. We also show a variant of the quasicrystal that has just 10 "plane classes" (compared with the 190 of the original), defined as the total number of distinct orientations of the planes in which the faces of the tetrahedra are contained. This small number of plane classes was achieved by a certain "golden rotation" of the tetrahedra.

Keywords

EN

61.44.Br; 61.46.-w

Discipline

• 61.44.Br: Quasicrystals
• 61.46.-w: Structure of nanoscale materials(for thermal properties of nanocrystals and nanotubes, see 65.80.-g; for mechanical properties of nanoscale systems, see 62.25.-g; for electronic transport in nanoscale materials, see 73.63.-b; see also 62.23.-c Structural classes of nanoscale systems; 64.70.Nd Structural transitions in nanoscale materials; for magnetic properties of nanostructures, see 75.75.-c)

• Publisher: Institute of Physics, Polish Academy of Sciences
• Journal: Acta Physica Polonica A
• Year: 2014
• Volume: 126
• Issue: 2
• Pages: 458-460

Dates

published

2014-08

Contributors

author

F. Fang

• Quantum Gravity Research, 23000 Saddle Peak Road, Topanga, 90290 Los Angeles (CA) U.S.A.

author

J. Kovacs

• Quantum Gravity Research, 23000 Saddle Peak Road, Topanga, 90290 Los Angeles (CA) U.S.A.

author

G. Sadler

• Quantum Gravity Research, 23000 Saddle Peak Road, Topanga, 90290 Los Angeles (CA) U.S.A.

author

K. Irwin

• Quantum Gravity Research, 23000 Saddle Peak Road, Topanga, 90290 Los Angeles (CA) U.S.A.

References

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Identifiers

DOI

10.12693/APhysPolA.126.458