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Critical Evaluation of Various Spontaneous Polarization Models and Induced Electric Fields in III-Nitride Multi-Quantum Wells

Ashfaq Ahmad, Paweł Strąk, Kamil Koroński, Paweł Kempisty, Konrad Sakowski, Jacek Piechota, I. Grzegory, A. Wierzbicka, Serhii Kryvyi, E. Monroy, Agata Kamińska, Stanisław Krukowski

2021Materials11 citationsDOIOpen Access PDF

Abstract

In this paper, ab initio calculations are used to determine polarization difference in zinc blende (ZB), hexagonal (H) and wurtzite (WZ) AlN-GaN and GaN-InN superlattices. It is shown that a polarization difference exists between WZ nitride compounds, while for H and ZB lattices the results are consistent with zero polarization difference. It is therefore proven that the difference in Berry phase spontaneous polarization for bulk nitrides (AlN, GaN and InN) obtained by Bernardini et al. and Dreyer et al. was not caused by the different reference phase. These models provided absolute values of the polarization that differed by more than one order of magnitude for the same material, but they provided similar polarization differences between binary compounds, which agree also with our ab initio calculations. In multi-quantum wells (MQWs), the electric fields are generated by the well-barrier polarization difference; hence, the calculated electric fields are similar for the three models, both for GaN/AlN and InN/GaN structures. Including piezoelectric effect, which can account for 50% of the total polarization difference, these theoretical data are in satisfactory agreement with photoluminescence measurements in GaN/AlN MQWs. Therefore, the three models considered above are equivalent in the treatment of III-nitride MQWs and can be equally used for the description of the electric properties of active layers in nitride-based optoelectronic devices.

Topics & Concepts

Wurtzite crystal structureNitridePolarization (electrochemistry)Ab initioElectric fieldMaterials scienceCondensed matter physicsWide-bandgap semiconductorPiezoelectricityQuantum wellPolarization densityGallium nitrideOptoelectronicsMolecular physicsZincChemistryPhysicsOpticsNanotechnologyQuantum mechanicsMetallurgyPhysical chemistryLayer (electronics)MagnetizationComposite materialMagnetic fieldLaserGaN-based semiconductor devices and materialsMetal and Thin Film MechanicsGa2O3 and related materials
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