LZSM spectroscopy extracts a charge noise spectral density of 0.5-0.9 neV/√Hz in bilayer graphene quantum dots, with temperature and frequency dependence indicating dominance of thermal Johnson noise or electron-phonon coupling over two-level fluctuators.
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Charge waves occur in SSH chains and their post-quench dynamics distinguish trivial from nontrivial topological phases through protected edge-state signatures.
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Probing charge noise in bilayer graphene quantum dots by Landau-Zener-St\"uckelberg-Majorana spectroscopy
LZSM spectroscopy extracts a charge noise spectral density of 0.5-0.9 neV/√Hz in bilayer graphene quantum dots, with temperature and frequency dependence indicating dominance of thermal Johnson noise or electron-phonon coupling over two-level fluctuators.
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Charge waves and dynamical signatures of topological phases in Su-Schrieffer-Heeger chains
Charge waves occur in SSH chains and their post-quench dynamics distinguish trivial from nontrivial topological phases through protected edge-state signatures.