Gratulujemy dr. inż. Łukaszowi Pawlaczykowi, prof. Jarosławowi Serafińczukowi oraz innym współautorom opublikowania pracy "Dislocation density as a factor compensating the polarization doping effect in graded p-AlGaN contact layers" wydanej w czasopiśmie Journal of Alloys and Compounds (IF=6,2). Wszystkim życzymy dalszych sukcesów naukowych.

Dislocation density as a factor compensating the polarization doping effect in graded p-AlGaN contact layers

D. Majchrzak, L.M. Tran, M. Babij, J. Serafińczuk, Ł. Pawlaczyk, S. Gorlanta, K. Opołczyńska, R. Kudrawiec, D. Hommel, E. Piskorska-Hommel

One of the approaches to improve p-doping properties in (Al)GaN-based materials is using a method called polarization doping. In this study, the graded p-AlGaN contact layers were deposited using plasma-assisted molecular beam epitaxy with different III/N ratios. To study the influence of Ga flux on the structural and electrical properties of the grown graded p-AlGaN structures, the samples were investigated using reflection high-energy electron diffraction, atomic force microscopy, secondary ion mass spectrometry, X-ray diffraction, and Hall effect measurements. The electronic structure of the samples was investigated by X-ray absorption near edge spectroscopy, while the polarity of the layers was analyzed by means of transmission electron microscopy. Our study reveals that growing with a higher Ga flux increases Mg incorporation and changes its distribution in the graded layer. However, it was shown that the main factor drastically affecting the magnitude and the type of conductivity in the graded p-AlGaN structures is the dislocation density. The highest hole concentration of ∼3.0×10¹⁸ cm⁻³ was observed for sample grown with a low Ga flux.

DOI.org/10.1016/j.jallcom.2024.174034