Yuki Ogawa, R. Akaike, Jiei Hayama, K. Uesugi, K. Shojiki, Toru Akiyama, Takao Nakamura, Hideto Miyake
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引用次数: 0
摘要
面对面退火和溅射沉积氮化铝(FFA Sp-AlN)在深紫外发光器件中具有潜力。本文研究了从 r 面蓝宝石向 c 轴投影方向的基片偏离切割角 (θsub)和溅射温度 (Tsp) 对 a 面氮化铝薄膜的结晶度和表面形貌的影响。增加负偏离方向上的θsub(当衬底表面接近蓝宝石 c 轴平面时发生)和降低 Tsp 可抑制非 a 轴取向异常畴的混合。这种混合的减少提高了 a 平面 FFA Sp-AlN 的表面平整度和结晶度。此外,a 面 AlN 薄膜的 c 轴方向随基底偏切角度的变化而倒转。Ab initio 计算表明,r 面蓝宝石衬底和 a 面 AlN 薄膜之间的界面稳定性可以解释 FFA Sp-AlN 的结晶度和 c 轴方向对 r 面蓝宝石表面偏切的依赖性。
Crystal orientation control of a-plane AlN films on r-plane sapphire fabricated by sputtering and high-temperature annealing
Face-to-face annealed and sputter-deposited aluminum nitride (FFA Sp-AlN) has potential in deep-ultraviolet light-emitting devices. Herein, the effects of the substrate off-cut angle (θsub) from an r-plane sapphire toward the c-axis projection direction and sputtering temperature (Tsp) on the crystallinity and surface morphology of a-plane AlN films are investigated. Increasing θsub in the minus-off direction, which occurs when the substrate surface approaches the sapphire c-plane, and lowering Tsp suppress the mixing of anomalous non-a-direction oriented domains. This reduced mixing enhances the surface flatness and crystallinity of a-plane FFA Sp-AlN. Moreover, the c-axis direction of the a-plane AlN film is inverted depending on the substrate off-cut angle. Ab initio calculations indicate that the interface stability between the r-plane sapphire substrate and the a-plane AlN film can explain the dependence of the crystallinity and c-axis orientation of FFA Sp-AlN on the surface off-cut of the r-plane sapphire.
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