Compositional accuracy in atom probe tomography analyses performed on III-N light emitting diodes - Groupe INSA
Article Dans Une Revue Journal of Applied Physics Année : 2019

Compositional accuracy in atom probe tomography analyses performed on III-N light emitting diodes

Ivan Blum
Jonathan Houard
Gérald da Costa
D. Blavette
Lorenzo Rigutti

Résumé

Laser-assisted atom probe tomography (APT) and high-resolution dark-field electron holography (HR-DFEH) were performed to investigate the composition of a polar [0001] GaN/AlxGa1 − xN/InyGa1 − yN light emitting diode. In particular, the III-site fraction of both AlxGa1 − xN and InyGa1 − yN alloys was studied adopting a comparative approach. HR-DFEH allows mapping the projected strain with a subnanometer spatial resolution which is used for the calculation of the two-dimensional alloy composition distribution. APT provides three-dimensional alloys composition distribution with a nanometer spatial resolution. However, here we reveal that important inaccuracies affect local composition measurements. A Ga-poor composition is obtained in high DC-electric field regions. Moreover, such inaccuracies may be locally enhanced where the [0001] pole intersects the surface of the analyzed specimen, leading to a lower fraction of Ga measured. III-site fractions closer to the nominal values were measured at low field conditions. Ga loss is thought to be due to preferential DC field induced evaporation of Ga ions between laser pulses. This is explained in terms of formation of a metallic layer on the tip surface during APT analysis, where weak Ga-Ga bonds are formed, promoting the loss of Ga at high field conditions.
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Dates et versions

hal-02298940 , version 1 (21-11-2024)

Identifiants

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Enrico Di Russo, Nikolay Cherkashin, Maxim Korytov, A. Nikolaev, A. Sakharov, et al.. Compositional accuracy in atom probe tomography analyses performed on III-N light emitting diodes. Journal of Applied Physics, 2019, 126 (12), pp.124307. ⟨10.1063/1.5113799⟩. ⟨hal-02298940⟩
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