Electronic spectral properties of incommensurate twisted trilayer graphene
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Multilayered van der Waals structures often lack periodicity, which difficults their modeling. Building on previous work for bilayers, we develop a tight-binding based, momentum space formalism capable of describing incommensurate multilayered van der Waals structures for arbitrary lattice mismatch and/or misalignment between different layers. We demonstrate how the developed formalism can be used to model angle-resolved photoemission spectroscopy measurements, and scanning tunnelling spectroscopy which can probe the local and total density of states. The general method is then applied to incommensurate twisted trilayer graphene structures. It is found that the coupling between the three layers can significantly affect the low energy spectral properties, which cannot be simply attributed to the pairwise hybridization between the layers.
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Momentum Space Algorithm for Electronic Structure of Double-Incommensurate Trilayer Graphene
A momentum space framework and truncation scheme for double-incommensurate trilayer graphene yields better convergence of density of states and captures band changes near magic-angle flat bands.
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