We present two different methods to pattern the band gap of dilute nitrides in their growth plane by exploiting the unique capability of H to passivate N in these materials. By deposition of metallic masks on and subsequent H irradiation of GaAs1-xNx, we artificially create zones of the crystal having the band gap of untreated GaAs1-xNx well surrounded by GaAs-like barriers. Alternatively, by focusing an energetic e(-)-beam on the surface of hydrogenated GaAs1-xNx we displace H atoms from their N passivation sites, thus leading to a controlled decrease in the crystal band gap in the spatial region where the e(-)-beam is steered.
In-plane bandgap engineering by modulated hydrogenation of dilute nitride semiconductors
G Pettinari;G Salviati;L Lazzarini;N Armani;Mariucci L
2007
Abstract
We present two different methods to pattern the band gap of dilute nitrides in their growth plane by exploiting the unique capability of H to passivate N in these materials. By deposition of metallic masks on and subsequent H irradiation of GaAs1-xNx, we artificially create zones of the crystal having the band gap of untreated GaAs1-xNx well surrounded by GaAs-like barriers. Alternatively, by focusing an energetic e(-)-beam on the surface of hydrogenated GaAs1-xNx we displace H atoms from their N passivation sites, thus leading to a controlled decrease in the crystal band gap in the spatial region where the e(-)-beam is steered.File in questo prodotto:
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