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Ultrafast exciton formation at the ZnO(10${\overline{\textbf{1}}}$0) surface

We study the ultrafast quasiparticle dynamics in and below the ZnO conduction band using femtosecond time-resolved two-photon photoelectron spectroscopy. Above band gap excitation causes hot electron relaxation by electron-phonon scattering down to the Fermi level $E_\text{F}$ followed by ultrafast (200 fs) formation of a surface exciton (SX). Transient screening of the Coulomb interaction reduces the SX formation probability at high excitation densities near the Mott limit. Located just below the surface, the SX are stable with regard to hydrogen-induced work function modifications and thus the ideal prerequisite for resonant energy transfer applications.

preprint2014arXivOpen access
J. -C. DeinertD. WegkampM. MeyerC. RichterM. WolfJ. Stähler
cond-mat.mtrl-sci
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Open access6 authors1 topic
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J. -C. DeinertD. WegkampM. MeyerC. RichterM. WolfJ. Stähler

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