Effect of V/III flux ratio on luminescence properties and defect formation of Er-doped GaN

Shaoqiang Chen,Shoji Ishibashi,Akira Uedono,Shigeo Tomita,Katsuhiro Akimoto,Hiroshi Kudo

doi:10.1063/1.3306736

Effect of V/III flux ratio on luminescence properties and defect formation of Er-doped GaN

Shaoqiang Chen, Shoji Ishibashi + Show 4 more

https://doi.org/10.1063/1.3306736

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Journal: Applied Physics Letters	Publication Date: Feb 1, 2010
Citations: 5

Affiliation: University of Tsukuba, National Institute of Advanced Industrial Science and Technology

#Gas Source Molecular Beam Epitaxy #Luminescence Center #Optical Active Centers #Formation Of GaN #Flux Ratio #Photoluminescence Measurement #Defect Formation #Luminescence Properties #Optical Active #Luminescence Defect

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Erbium-doped GaN samples grown with different V/III ratios through gas source molecular beam epitaxy were prepared to investigate the influence of the V/III ratio on the defect formation and the optical activity of the Er-related luminescence center. Obvious V/III ratio dependence was observed in photoluminescence measurement. Positron annihilation spectroscopy measurements suggested that VGa-VN vacancy-complexes formed in these samples and that the VN/VGa ratio depended on the V/III ratio. The generation of Er-VN defect complexes, which act as high optical active luminescence centers, is suggested as the cause of improved optical properties of Er-doped GaN grown with a lower V/III ratio.

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Effect of V/III flux ratio on luminescence properties and defect formation of Er-doped GaN