Multiple planar coincidences with <i>N</i>-fold symmetry

Baake, Michael; Grimm, Uwe

doi:10.1524/zkri.2006.221.8.571

Cited by 14 publications

(33 citation statements)

References 19 publications

(87 reference statements)

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“…This is of interest in connection with triple and multiple junctions [11,12] in solid state physics and in connection with quantizing procedures [13,14] in information theory. So far, multiple coincidences are well understood only for some highly symmetric lattices and modules in the plane, see [15]. Since so far only some preliminary results on the cubic case have been published [16], we present here the main results for the cubic case, whose details will be published elsewhere [17].…”

Section: Introductionmentioning

confidence: 92%

“…In particular, we exploit the fact that the Gaussian integers possess unique prime factorization (up to units). Rotations can then be represented by unimodular complex numbers e i and it turns out that e i corresponds to a coincidence rotation if, and only if, e i 2 QðiÞ (for details, see [7,15]). Hence, we may write e i ¼ = with ¼ "…”

Section: Two-dimensional Lattices and Modulesmentioning

confidence: 99%

“…. , Àn ðkÞ p Þ, see [15] for details. This implies that the spectrum stays the same, a fact that alternatively can be deduced from our general considerations in section 1.…”

Section: Two-dimensional Lattices and Modulesmentioning

confidence: 99%

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Multiple coincidences in dimensions d ≤ 3

Baake

Zeiner

2007

Philosophical Magazine

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Ordinary coincidence site lattices (CSLs) are very well understood for a large class of lattices in dimensions d 4, as well as their generalization for various highly symmetric modules. Here, we consider multiple coincidence site lattices, i.e. intersections of several ordinary CSLs, which appear in connection with triple and multiple junctions. We restrict our considerations to the most prominent lattices in dimensions d 3 and present an outlook for further lattices and modules.

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Section: Introductionmentioning

confidence: 92%

Section: Two-dimensional Lattices and Modulesmentioning

confidence: 99%

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Multiple coincidences in dimensions d ≤ 3

Baake

Zeiner

2007

Philosophical Magazine

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“…The coincidence problem for the hexagonal lattice has been solved in [9] (see also [10]). Any coincidence rotation R of Γ by an angle of ϕ corresponds to multiplication by…”

Section: Coincidences Of the Hexagonal Latticementioning

confidence: 99%

Coincidences of a Shifted Hexagonal Lattice and the Hexagonal Packing

2014

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A geometric study of twin and grain boundaries in crystals and quasicrystals is achieved via coincidence site lattices and coincidence site modules, respectively. Recently, coincidences of shifted lattices and multilattices (i.e. nite unions of shifted copies of a lattice) have been investigated. Here, we solve the coincidence problem for a shifted hexagonal lattice. This result allows us to analyze the coincidence isometries of the hexagonal packing by viewing the hexagonal packing as a multilattice.

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“…In several important examples, compare [3,27], these spectra are equal or stabilize, in the sense that the total spectrum is reached after finitely many lattice intersections. Usually, there are more multiple CSLs than simple ones with a given index, though this quantity also stabilizes in the examples mentioned.…”

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confidence: 99%