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Truncated atomic plane wave method for subband structure calculations of moiré systems

Wangqian Miao, Chu Li, Xu Han, Ding Pan, Xi Dai

2023Physical review. B./Physical review. B28 citationsDOI

Abstract

We propose a highly efficient and accurate numerical scheme named the truncated atomic plane wave method to determine the subband structure of twisted bilayer graphene (TBG) inspired by the Bistritzer-MacDonald model. Our method utilizes real-space information of carbon atoms in the moir\'e unit cell and projects the full tight-binding Hamiltonian into a much smaller subspace using atomic plane waves. Using our method, we are able to present accurate electronic band structures of TBG in a wide range of twist angles together with the detailed moir\'e potential and screened Coulomb interaction at the first magic angle. Furthermore, we generalize our formalism to solve the problem of low-frequency moir\'e phonons in TBG.

Topics & Concepts

Moiré patternPlane (geometry)Plane waveMaterials sciencePhysicsComputational physicsOpticsMathematicsGeometryPhotonic Crystals and ApplicationsGraphene research and applicationsElectromagnetic Scattering and Analysis
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