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1991
Journal Article
Titel
Fermi-edge singularity and screening effects in the absorption and luminescence spectrum of Si delta-doped GaAs.
Alternative
Fermi-Kanten-Singularität und Abschirmungseffekte im Absorptions- und Lumineszenzspektrum von Si delta-dotiertem GaAs
Abstract
We have investigated single Si delta-doped layers in GaAs by photoluminescence and photoluminescence excitation spectroscopy (PLE). When the photogenerated holes are confined by GaAs/Al sub x Ga sub 1-x As heterointerfaces placed at either side of the doped layer strong radiative recombination is observed from the quasi-two-dimensional electron gas associated with the delta-doping spike. The low-temperature absorption spectrum involving spatially direct transitions, which was measured by PLE, shows a well resolved enhancement at the Fermi edge. The energy position of the absorption edge is found to be independent of the excitation intensity. The peak energy of the band-to-band emission spectrum, in contrast, which involves spatially indirect transitions, shows a shift to higher energies with increasing excitation intensity due to the screening of the space-charge-induced potential by photogenerated carriers.