Structural and Magnetic Characterization of MOCVD Grown GaMnN and GaFeN Nanostructures

机译：MoCVD种植Gamnn和Gafen纳米结构的结构和磁性特征

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The growth of Ga{sub}(1-x)Mn{sub}xN and Ga{sub}(1-x)Fe{sub}xN nanostructures was carried out by MOCVD. Introduction of transition metals (TM) Mn and Fe in GaN nanostructures enhanced the nucleation of the nanostructures resulting in reduced lateral dimensions and increased nanostructure density. The Ga{sub}(1-x)Mn{sub}xN nanostructures showed hysteresis behavior at 5K. Room temperature ferromagnetism was obtained in the Ga{sub}(1-x)Fe{sub}xN nanostructures unlike its bulk counterpart. This paper presents the growth and magnetization study of Ga{sub}(1-x)TM{sub}xN nanostructures. These structures could be used to enhance the efficiency of spintronic devices.

机译：Ga {sub}（1-x）Mn {sub} xn和ga {sub}（1-x）fe {sub} Xn纳米结构的生长是通过MOCVD进行的。 GaN纳米结构的过渡金属（TM）Mn和Fe引入增强了纳米结构的成核，导致横向尺寸减小和增加的纳米结构密度。 Ga {sub}（1-x）mn {sub} xn纳米结构在5k时显示滞后行为。在Ga {sub}（1-x）Fe {sub} xn纳米结构上，获得室温铁磁性。与其散装对应物不同。本文介绍了Ga {sub}（1-x）tm {sub} XN纳米结构的生长和磁化研究。这些结构可用于提高旋转式装置的效率。

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《Materials Research Society Symposium on Quantum Dots》|2006年||共6页
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Shalini Gupta; Hun Kang; Matthew H. Kane; Eun Hyun Park; Ian T. Ferguson;
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Structural and Magnetic Characterization of MOCVD Grown GaMnN and GaFeN Nanostructures

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