Non-equilibrium dark excitons in homobilayer 2H-MoS2 form in 85 fs and thermalize in 150 fs, directly fingerprinted by momentum-resolved photoemission spectral function and matched by microscopic calculations.
Merboldt, et al., Observation of Floquet States in Graphene
2 Pith papers cite this work. Polarity classification is still indexing.
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Coherent phonons drive longer-lived Floquet-Bloch states observed through quantum beat signals in photoemission on graphene-covered Ir(111).
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The role of non-equilibrium populations in dark exciton formation
Non-equilibrium dark excitons in homobilayer 2H-MoS2 form in 85 fs and thermalize in 150 fs, directly fingerprinted by momentum-resolved photoemission spectral function and matched by microscopic calculations.
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Phonon-driven Floquet-Bloch states probed by quantum beat spectroscopy
Coherent phonons drive longer-lived Floquet-Bloch states observed through quantum beat signals in photoemission on graphene-covered Ir(111).