2018
DOI: 10.3390/cryst8110416
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Non-Local Game of Life in 2D Quasicrystals

Abstract: On a two-dimensional quasicrystal, a Penrose tiling, we simulate for the first time a game of life dynamics governed by non-local rules. Quasicrystals have inherently non-local order since any local patch, the emperor, forces the existence of a large number of tiles at all distances, the empires. Considering the emperor and its local patch as a quasiparticle, in this case a glider, its empire represents its field and the interaction between quasiparticles can be modeled as the interaction between their empires… Show more

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Cited by 5 publications
(8 citation statements)
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“…This approach differs from previous studies that consider the nearest neighbors situated in the local 2D representation [27,28]. In Figure 4, one can see the K vertex type and 2D representation of the nearest neighbors in the perpendicular space that we have considered [17]. The distribution of the neighbors is interesting, as it surrounds an S vertex patch (sun) on one side and an S5 vertex patch (star) on the other side.…”
Section: Empire Calculation For the Vertex Types S5 (Left) And S (Rigmentioning
confidence: 89%
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“…This approach differs from previous studies that consider the nearest neighbors situated in the local 2D representation [27,28]. In Figure 4, one can see the K vertex type and 2D representation of the nearest neighbors in the perpendicular space that we have considered [17]. The distribution of the neighbors is interesting, as it surrounds an S vertex patch (sun) on one side and an S5 vertex patch (star) on the other side.…”
Section: Empire Calculation For the Vertex Types S5 (Left) And S (Rigmentioning
confidence: 89%
“…Several game-of-life [21] algorithms have been previously studied on Penrose tiling, but they have either considered a periodic grid [26] or they have considered only local rules [27,28]. Recently, for the first time, a game-of-life scenario has been simulated using nonlocal rules on a two-dimensional qusicrystal, the Penrose tiling, in [17]. In this simulation, for the [16], Figures 13 and 14.…”
Section: Quasicrystal Dynamicsmentioning
confidence: 99%
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