3D to 2D localization in supertwisted multilayers

Abstract

We study the electronic properties of multilayer "spirals" of two-dimensional materials with continuously increasing twist angle. The electronic states are shown to undergo a universal 3D-to-2D transition on increasing the in-plane momentum k away from the point. The states with k>kc are localized along the z axis due to mismatch between electronic dispersions of the twisted layers, whereas those with k<kc are extended. We support our results by mapping of the system on the Aubry-Andr\'e model and deduce the experimental signatures of 3D to 2D localization in transport experiments.

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