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Journal Articles Nature Physics Year : 2024

Quasi-crystalline order in vibrated granular matter

A. Plati
F. Boulogne
F. Restagno
F. Smallenburg
G. Foffi

Abstract

Quasi-crystals are aperiodic structures that present crystallographic properties which are not compatible with that of a single unit cell. Their revolutionary discovery in a metallic alloy, less than three decades ago, has required a full reconsideration of what we defined as a crystal structure. Surprisingly, quasi-crystalline structures have been discovered also at much larger length scales in different microscopic systems for which the size of elementary building blocks ranges between the nanometric to the micrometric scale. Here, we report the first experimental observation of spontaneous quasi-crystal self-assembly at the millimetric scale. This result is obtained in a fully athermal system of macroscopic spherical grains vibrated on a substrate. Starting from a liquid-like disordered phase, the grains begin to locally arrange into three types of squared and triangular tiles that eventually align, forming 8-fold symmetric quasi-crystal that has been predicted in simulation but not yet observed experimentally in non-atomic systems. These results are not only the proof of a novel route to spontaneously assemble quasi-crystals but are of fundamental interest for the connection between equilibrium and non-equilibrium statistical physics.
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Dates and versions

hal-04445764 , version 1 (08-02-2024)

Identifiers

Cite

A. Plati, R. Maire, E. Fayen, F. Boulogne, F. Restagno, et al.. Quasi-crystalline order in vibrated granular matter. Nature Physics, In press, ⟨10.1038/s41567-023-02364-1⟩. ⟨hal-04445764⟩
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