阴极发光
光谱学
材料科学
氧气
光电子学
化学
发光
物理
有机化学
量子力学
作者
Barbara Szafranski,Lukas Peters,Christoph Margenfeld,S. Wolter,A. Waag,T. Voss
标识
DOI:10.1002/pssb.202500148
摘要
High‐temperature annealing significantly improves the crystal quality of sputter‐deposited AlN templates, but at the same time introduces a high concentration of oxygen‐related point defects. The origin of this oxygen‐related defect luminescence is studied using time‐resolved and temperature‐dependent cathodoluminescence spectroscopy. Characterization of the defect luminescence reveals a complex multiexponential decay, with a fast component of about 2 ns and slow components of tens to hundreds of nanoseconds. The slow decay is attributed to a donor–acceptor‐pair transition between an O N donor and mainly the ( V Al ‐ O N ) 2− and ( V Al ‐2 O N ) 1− defect complexes as acceptors, whereas the fast component is ascribed to a free electron to acceptor transition involving the same type of acceptors. Furthermore, the impact of these oxygen‐related defects on the quality and transparency of the AlN templates is discussed.
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