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W4220911405 abstract "Twisted bilayer graphene belong to van der Waals two-dimensional materials that demonstrate low-energy relativistic gapless dispersion relation. Although carries can not be permanently confined within electrostatically formed cavity for this reason (in pristine condition), we show that transitory states with lifetimes up to several microseconds may exist for twist angle θ=1.050 while changing the twist towards θ=0.50 lowers the lifetimes by few orders of magnitude. Generally, these resonances occur in density of states spectra grouped in small bunches which positions in energy depend on the magnitude of cavity’s confinement potential. Analysis of local density of states corresponding to transitory states reveals that sequence of excitations in each bunch can have ascending as well as descending character. Moreover, density develop the superstructure composed of small density spots or closed-loops centered at AA sites and the overall superstructure may mimic the rotational symmetry of cavity or C6 symmetry for higher excitations, even though all of them actually have C3 symmetry inherited from underlying TBLG Moiré lattice." @default.
W4220911405 created "2022-04-03" @default.
W4220911405 creator A5055004938 @default.
W4220911405 date "2022-07-01" @default.
W4220911405 modified "2023-10-03" @default.
W4220911405 title "Formation of cavity resonance states in twisted bilayer graphene" @default.
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W4220911405 doi "https://doi.org/10.1016/j.physe.2022.115219" @default.
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