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Main Authors: Fujita, Nobuhisa, Niizeki, Komajiro
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2505.14013
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author Fujita, Nobuhisa
Niizeki, Komajiro
author_facet Fujita, Nobuhisa
Niizeki, Komajiro
contents We present a novel variant of a planar quasiperiodic tiling with tenfold symmetry, employing the same thick and thin rhombuses as the celebrated rhombic Penrose tiling. Despite its distinct visual appearance, this new tiling shares several key features with its predecessor, including similar vertex environments, polygonal acceptance domains based on regular pentagons, and an inflation/deflation symmetry associated with the golden mean as its fundamental scaling ratio. Additional complexities arise from an increased number of prototiles and a dual grid pattern that incorporates folded lines alongside ordinary straight lines. This tiling exhibits a high density of a compact decagonal motif forming a two-tiered, five-petaled flower pattern, which spans a substantial portion of the tiling. We identify a slightly enhanced degree of hyperuniform order compared to the standard rhombic Penrose tiling.
format Preprint
id arxiv_https___arxiv_org_abs_2505_14013
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle A novel variant of rhombic Penrose tiling
Fujita, Nobuhisa
Niizeki, Komajiro
Mathematical Physics
Materials Science
We present a novel variant of a planar quasiperiodic tiling with tenfold symmetry, employing the same thick and thin rhombuses as the celebrated rhombic Penrose tiling. Despite its distinct visual appearance, this new tiling shares several key features with its predecessor, including similar vertex environments, polygonal acceptance domains based on regular pentagons, and an inflation/deflation symmetry associated with the golden mean as its fundamental scaling ratio. Additional complexities arise from an increased number of prototiles and a dual grid pattern that incorporates folded lines alongside ordinary straight lines. This tiling exhibits a high density of a compact decagonal motif forming a two-tiered, five-petaled flower pattern, which spans a substantial portion of the tiling. We identify a slightly enhanced degree of hyperuniform order compared to the standard rhombic Penrose tiling.
title A novel variant of rhombic Penrose tiling
topic Mathematical Physics
Materials Science
url https://arxiv.org/abs/2505.14013