We used time-resolved pump-probe core level photoemission spectroscopy to study the transient regime of the charge distribution at SiO2 /Si interfaces after photoexcitation with an UV free electron laser. We found that electrons generated in the Si substrate can accumulate at the surface of the oxide layer, strongly affecting the electric field at the interface, For n-type silicon, this effect can lead to an enhancement of the curvature of the bands, rather than to the expected flattening due to surface photovoltage. The characteristic decay time of this vacuum transient charging at the surface of the oxide layer depends markedly on its thickness; our results indicate that for about 12-Angstrom oxide thickness, it is comparable to the typical excess carrier recombination time in silicon space charge layers
Transient charge carrier distribution at UV-photoexcited SiO2/Si interfaces
G Panaccione;
2000
Abstract
We used time-resolved pump-probe core level photoemission spectroscopy to study the transient regime of the charge distribution at SiO2 /Si interfaces after photoexcitation with an UV free electron laser. We found that electrons generated in the Si substrate can accumulate at the surface of the oxide layer, strongly affecting the electric field at the interface, For n-type silicon, this effect can lead to an enhancement of the curvature of the bands, rather than to the expected flattening due to surface photovoltage. The characteristic decay time of this vacuum transient charging at the surface of the oxide layer depends markedly on its thickness; our results indicate that for about 12-Angstrom oxide thickness, it is comparable to the typical excess carrier recombination time in silicon space charge layersI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
