Screening of the quantum-confined Stark effect in AlN/GaN nanowire superlattices by Germanium doping

C. Mag\'en; J. Arbiol; J. M\"u{\ss}ener; J. Sch\"ormann; J. Teubert; M. de la Mata; M. Eickhoff; N. Rosemann; P. Becker; P. Hille

arxiv: 1402.3081 · v1 · pith:6DTNK4GHnew · submitted 2014-02-13 · ❄️ cond-mat.mtrl-sci

Screening of the quantum-confined Stark effect in AlN/GaN nanowire superlattices by Germanium doping

P. Hille , J. M\"u{\ss}ener , P. Becker , M. de la Mata , N. Rosemann , C. Mag\'en , J. Arbiol , J. Teubert

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S. Chatterjee J. Sch\"ormann M. Eickhoff

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classification ❄️ cond-mat.mtrl-sci

keywords photoluminescenceemissionenergygermaniumnanodiscsnanowirescreeningtime

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We report on electrostatic screening of polarization-induced internal electric fields in AlN/GaN nanowire heterostructures with Germanium-doped GaN nanodiscs embedded between AlN barriers. The incorporation of Germanium at concentrations above $10^{20}\,\text{cm}^{-3}$ shifts the photoluminescence emission energy of GaN nanodiscs to higher energies accompanied by a decrease of the photoluminescence decay time. At the same time, the thickness-dependent shift in emission energy is significantly reduced. In spite of the high donor concentration a degradation of the photoluminescence properties is not observed.

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Screening of the quantum-confined Stark effect in AlN/GaN nanowire superlattices by Germanium doping

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