Aina Hiyama Zazuli, Taketo Kowaki, Minagi Miyamoto, Koki Hanasaku, Daisuke Inahara, Kai Fujii, Satoshi Kurai, Narihito Okada, Yoichi Yamada
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Additionally, in the study, the impact of growth conditions, such as temperature and V/III ratio, on the electrical properties of N‐polar GaN is investigated. In the results, it is revealed that growth at lower temperatures and a V/III ratio of 30 000 effectively suppresses 3D growth. Moreover, an increase in the V/III ratio correlates with a decrease in residual impurity concentrations (C and H); hence, electron mobility improves. Moreover, the N‐polar GaN/AlGaN/AlN field‐effect transistor, grown under optimized conditions, exhibits a higher maximum drain–source current (<jats:italic>I</jats:italic><jats:sub>Dmax</jats:sub>). 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引用次数: 0
摘要
金属有机气相外延(MOVPE)方法用于在外来衬底上生长 N 极 GaN 时面临着一些挑战,包括存在以阶梯束或六角丘为特征的粗糙表面形貌。本研究旨在通过建立 MOVPE 方法的最佳生长条件来解决这些问题,从而使 N 极 GaN/Al0.9Ga0.1N/AlN 异质结构能在沧桑的蓝宝石衬底上生长出具有光滑表面形态的异质结构。研究讨论了在使用 MOVPE 制备的 N 极 GaN/AlGaN/AlN 中形成的二维电子气 (2DEG)。此外,研究还探讨了温度和 V/III 比率等生长条件对 N 极 GaN 电性能的影响。研究结果表明,在较低温度和 V/III 比率为 30 000 的条件下生长可有效抑制三维生长。此外,V/III 比率的增加与残留杂质浓度(C 和 H)的降低相关,因此电子迁移率得到改善。此外,在优化条件下生长的 N 极 GaN/AlGaN/AlN 场效应晶体管显示出更高的最大漏极-源极电流(IDmax)。这些结果拓宽了通过 MOVPE 实现高性能 N 极 GaN 沟道高电子迁移率晶体管的可能性。
Electrical Properties of N‐Polar GaN/AlGaN/AlN Grown via Metal‐Organic Vapor Phase Epitaxy
The metal‐organic vapor phase epitaxy (MOVPE) method faces several challenges when used for the growth of N‐polar GaN on foreign substrates, including the presence of a rough surface morphology characterized by step bunching or hexagonal hillocks. In this study, it is aimed to address these issues by establishing optimal growth conditions for the MOVPE method, enabling the growth of N‐polar GaN/Al0.9Ga0.1N/AlN heterostructures with a smooth surface morphology on a vicinal sapphire substrate. The formation of 2D electron gas (2DEG) in N‐polar GaN/AlGaN/AlN prepared using MOVPE is discussed. Additionally, in the study, the impact of growth conditions, such as temperature and V/III ratio, on the electrical properties of N‐polar GaN is investigated. In the results, it is revealed that growth at lower temperatures and a V/III ratio of 30 000 effectively suppresses 3D growth. Moreover, an increase in the V/III ratio correlates with a decrease in residual impurity concentrations (C and H); hence, electron mobility improves. Moreover, the N‐polar GaN/AlGaN/AlN field‐effect transistor, grown under optimized conditions, exhibits a higher maximum drain–source current (IDmax). In these results, possibilities are broadened for the high performance of N‐polar GaN channel high‐electron‐mobility transistors through MOVPE.
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