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Paper detail

Nanometric Turing Patterns: Morphogenesis of a Bismuth Monolayer

Turing's reaction-diffusion theory of morphogenesis has been very successful in understanding macroscopic patterns within complex objects ranging from biological systems to sand dunes. However, this mechanism was never tested against patterns that emerge at the atomic scale, where the basic ingredients are subject to constraints imposed by quantum mechanics. Here we report evidence of a Turing pattern that appears in a strained atomic bismuth monolayer assembling on the surface of NbSe$_2$ subject to interatomic interactions and respective kinetics. The narrow range of microscopic parameters reflected in numerical analysis that observe stripe patterns and domain walls with Y-shaped junctions is a direct consequence of the quantum-mechanically allowed bond-lengths and bond-angles. This is therefore the first demonstration of a dynamically formed Turing pattern at the atomic scale.

preprint2021arXivOpen access
Yuki FuseyaHiroyasu KatsunoKamran BehniaAharon Kapitulnik
cond-mat.mes-hallcond-mat.mtrl-scinlin.PS
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Yuki FuseyaHiroyasu KatsunoKamran BehniaAharon Kapitulnik

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