Reduced Projection Method for Photonic Moiré Lattices
This paper presents a reduced projection method for the solution of quasiperiodic
Schrödinger eigenvalue problems for photonic moiré lattices. Using the properties of the …
Schrödinger eigenvalue problems for photonic moiré lattices. Using the properties of the …
Construction and Accuracy of Electronic Continuum Models of Incommensurate Bilayer 2D Materials
X Quan, A Watson, D Massatt - arxiv preprint arxiv:2406.15712, 2024 - arxiv.org
Single-particle continuum models such as the popular Bistritzer-MacDonald model have
become powerful tools for predicting electronic phenomena of incommensurate 2D …
become powerful tools for predicting electronic phenomena of incommensurate 2D …
An extended plane wave framework for the electronic structure calculations of twisted bilayer material systems
X Dai, A Zhou, Y Zhou - Computational Materials Science, 2023 - Elsevier
In this study, we propose an extended plane wave framework to ensure that the electronic
structure calculations of twisted bilayer 2D material systems are practically feasible. Based …
structure calculations of twisted bilayer 2D material systems are practically feasible. Based …
Reduced projection method for quasiperiodic Schr\"{o} dinger eigenvalue problems
This paper presents a reduced algorithm to the classical projection method for the solution of
$ d $-dimensional quasiperiodic problems, particularly Schr\"{o} dinger eigenvalue …
$ d $-dimensional quasiperiodic problems, particularly Schr\"{o} dinger eigenvalue …
Localization in the Incommensurate Systems: A Plane Wave Study via Effective Potentials
T Wang, Y Zhou, A Zhou - arxiv preprint arxiv:2307.05114, 2023 - arxiv.org
In this paper, we apply the effective potentials in the localization landscape theory (Filoche
et al., 2012, Arnold et al., 2016) to study the spectral properties of the incommensurate …
et al., 2012, Arnold et al., 2016) to study the spectral properties of the incommensurate …