SKM 2021 – wissenschaftliches Programm
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HL: Fachverband Halbleiterphysik
HL 9: Nitride: Preparation, Charakterization and Devices
HL 9.3: Vortrag
Dienstag, 28. September 2021, 12:15–12:30, H4
Structural analysis of novel orientations of AlN grown on m-plane sapphire — •Jochen Bruckbauer1, Gergely Ferenczi1, Humberto Foronda2, Sarina Graupeter2, Ben Hourahine1, Aimo Winkelmann1,3, Zhi Li4, Ling Jiu4, Jie Bai4, Tao Wang4, Tim Wernicke2, Michael Kneissl2, and Carol Trager-Cowan1 — 1University of Strathclyde, UK — 2Technische Universität Berlin, Germany — 3AGH University of Science and Technology, Poland — 4University of Sheffield, UK
Heteroepitaxial III-nitrides can be grown with a wide range of orientations on a range of substrates. Determination of the epitaxial orientation relationship of the nitride film with its substrate is often necessary. Here, we report on the determination and observation of novel orientations in AlN grown on m- or (1100) plane sapphire using electron backscatter diffraction (EBSD). An electron backscatter diffraction pattern is recorded for each spatial point in an EBSD map from which crystal structure, orientation and misorientation can be determined with a spatial resolution of around 50 nm and a relative angular precision of around 0.1∘. The AlN thin film exhibits twinned regions where the normal to a {1213} plane for each twin is within 9∘ of the [1100] sapphire direction. The twins share a common {1100} plane. Furthermore for each twin, the normal to a {1122} AlN plane is within 3.5∘ of the [1120] sapphire direction and a ⟨4312⟩ AlN direction is within 2∘ of the [0001] sapphire direction. These orientations, together with the usually observed (1100) and (1122) cases, form a family of related growth directions for nitride thin films.