Dynamics Studies of Nitrogen Interstitial in GaN from Ab Initio Calculations

Understanding the properties of defects is crucial to design higher performance semiconductor materials because they influence the electronic and optical properties significantly. Using ab initio calculations, the dynamics properties of nitrogen interstitial in GaN material, including the configurat...

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Veröffentlicht in:	Materials 2020-08, Vol.13 (16), p.3627
Hauptverfasser:	He, Huan, Liu, Wenbo, Zhang, Pengbo, Liao, Wenlong, Tong, Dayin, Yang, Lin, He, Chaohui, Zang, Hang, Zong, Hongxiang
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Sprache:	eng
Schlagworte:	Configurations Design defects Energy Gallium nitrides Mathematical analysis Nitrogen Optical properties Performance enhancement Point defects Rotation Semiconductor materials Simulation Spectrum analysis Symmetry
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creator	He, Huan Liu, Wenbo Zhang, Pengbo Liao, Wenlong Tong, Dayin Yang, Lin He, Chaohui Zang, Hang Zong, Hongxiang
description	Understanding the properties of defects is crucial to design higher performance semiconductor materials because they influence the electronic and optical properties significantly. Using ab initio calculations, the dynamics properties of nitrogen interstitial in GaN material, including the configuration, migration, and interaction with vacancy were systematically investigated in the present work. By introducing different sites of foreign nitrogen atom, the most stable configuration of nitrogen interstitial was calculated to show a threefold symmetry in each layer and different charge states were characterized, respectively. In the researches of migration, two migration paths, in-plane and out-of-plane, were considered. With regards to the in-plane migration, an intermediated rotation process was observed first time. Due to this rotation behavior, two different barriers were demonstrated to reveal that the migration is an anisotropic behavior. Additionally, charged nitrogen Frenkel pair was found to be a relatively stable defect complex and its well separation distance was about 3.9 Å. Part of our results are in good agreement with the experimental results, and our work provides underlying insights of the identification and dynamics of nitrogen interstitial in GaN material. This study of defects in GaN material is useful to establish a more complete theory and improve the performance of GaN-based devices.
doi_str_mv	10.3390/ma13163627
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subjects	Configurations Design defects Energy Gallium nitrides Mathematical analysis Nitrogen Optical properties Performance enhancement Point defects Rotation Semiconductor materials Simulation Spectrum analysis Symmetry
title	Dynamics Studies of Nitrogen Interstitial in GaN from Ab Initio Calculations
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