GaAs surface passivation by plasma-enhanced atomic-layer-deposited aluminum nitride
M Bosund, P Mattila, A Aierken, T Hakkarainen… - Applied Surface …, 2010 - Elsevier
Applied Surface Science, 2010•Elsevier
A low-temperature passivation method for GaAs surfaces is investigated. Ultrathin AlN layers
are deposited by plasma-enhanced atomic-layer-deposition at 200° C on top of near-surface
InGaAs/GaAs quantum well structures. A significant passivation effect is seen as shown by
up to 30 times higher photoluminescence intensity and up to seven times longer lifetime
compared to uncoated reference samples. The improved optical properties are
accompanied by a redshift of the quantum well photoluminescence peak likely caused by a …
are deposited by plasma-enhanced atomic-layer-deposition at 200° C on top of near-surface
InGaAs/GaAs quantum well structures. A significant passivation effect is seen as shown by
up to 30 times higher photoluminescence intensity and up to seven times longer lifetime
compared to uncoated reference samples. The improved optical properties are
accompanied by a redshift of the quantum well photoluminescence peak likely caused by a …
A low-temperature passivation method for GaAs surfaces is investigated. Ultrathin AlN layers are deposited by plasma-enhanced atomic-layer-deposition at 200° C on top of near-surface InGaAs/GaAs quantum well structures. A significant passivation effect is seen as shown by up to 30 times higher photoluminescence intensity and up to seven times longer lifetime compared to uncoated reference samples. The improved optical properties are accompanied by a redshift of the quantum well photoluminescence peak likely caused by a combination of the nitridation of the GaAs capping layer and a surface coupling effect.
Elsevier
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