We investigated the nanosecond-scale time decay of the blue-green light emitted by nominally pure SrTiO3 following the absorption of an intense picosecond laser pulse generating a high density of electron-hole pairs. Two independent components are identified in the fluorescence signal that show a different dynamics with varying excitation intensity and which can be modeled as a bimolecular and unimolecolar process. An interpretation of the observed recombination kinetics in terms of interacting electron and hole polarons is proposed.
Recombination kinetics of a dense electron-hole plasma in strontium titanate
Paparo D;MilettoGranozio F;Marrucci L
2007
Abstract
We investigated the nanosecond-scale time decay of the blue-green light emitted by nominally pure SrTiO3 following the absorption of an intense picosecond laser pulse generating a high density of electron-hole pairs. Two independent components are identified in the fluorescence signal that show a different dynamics with varying excitation intensity and which can be modeled as a bimolecular and unimolecolar process. An interpretation of the observed recombination kinetics in terms of interacting electron and hole polarons is proposed.File in questo prodotto:
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