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Abstract
Spin-Orbit coupling (SOC) is quite crucial in understanding the electronic and optoelectronic properties of the Transition Metal Dichalcogenides (TMDCs). The excitonic properties and dynamics of twisted TMDC bilayers have a strong dependence on the twist angle as well as on the material composition. Here, we have studied the effects of SOC on the exciton dynamics
2
domains in terms of spin-valley locking and subsequent influence on intralayer and interlayer electronic transitions in homo-bilayer and hetero-bilayer TMDCs twisted close to R or H stacking. Our study paves the path in understanding the twist angle dependence of spin-valley locking in the twisted TMDCs which will be quite beneficial in understanding valley dependent optical selection rules which in turn are crucial for exotic optoelectronic applications of such systems.
Supplementary materials
Title
Geometrical parameters & Partial Density of States
Description
The file provide the structure used in the study along with the spin orbit coupling parameters. It also contains shell and orbital projected partial density of states for all orbitals and shells.
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