从第一原理看辐射损伤对 β-Ga2O3 电子和光学特性的影响

Xiaoning Zhang, Xi Liang, Xing Li, Yuan Li, Jia-yue Yang, Linhua Liu
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摘要

具有超宽带隙的β-Ga2O3 在作为电力电子器件和日盲光电探测器的太空任务应用中大有可为。揭示辐射损伤对其材料特性的影响至关重要,尤其是对于提高基于 Ga2O3 的器件的辐射耐受性。在此,我们利用第一原理计算评估了镓和氧空位缺陷的形成能,并全面研究了它们对 β-Ga2O3 电子和光学特性的影响。镓空位作为深受体在 β-Ga2O3 中产生 p 型缺陷,而含有 O 空位的 Ga2O3 缺陷则表现出 n 型特性。在含有 Ga 空位的缺陷 Ga2O3 中观察到了半金属特性,并在红外光谱范围内出现了明显的光吸收峰。此外,当 β-Ga2O3 同时含有 Ga 空位和 O 空位时,会出现自我补偿效应,导致吸收峰值降低。研究还探讨了掺杂对 β-Ga2O3 缺陷形成能的影响,发现与未掺杂的 β-Ga2O3 相比,掺 In 的 β-Ga2O3 (InGa2O3)很容易形成 Ga 空位,而 O 空位则更难形成。这项研究深入探讨了镓和氧空位缺陷如何改变 β-Ga2O3 的电子和光学特性,从而寻求增强其辐射耐受性。
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Radiation damage effects on electronic and optical properties of β-Ga2O3 from first-principles
β-Ga2O3 with an ultra-wide bandgap demonstrates great promise in applications of space missions as power electronics and solar-blind photodetector. Unraveling the radiation damage effects on its material properties is of crucial importance, especially for improving the radiation tolerance of Ga2O3-based devices. Herein, we evaluate the formation energy of gallium and oxygen vacancy defects and comprehensively investigate their influence on the electronic and optical properties of β-Ga2O3 using first-principles calculations. Ga vacancies act as deep acceptors and produce p-type defects in β-Ga2O3, while the defective Ga2O3 with O vacancies exhibits the n-type characteristics. A semimetal characteristic is observed in the defective Ga2O3 with Ga vacancies, and an apparent optical absorption peak in the infrared spectral range emerges. Moreover, the self-compensation effect emerges when β-Ga2O3 contains both Ga vacancies and O vacancies, leading to the reduced absorption peak. The doping effect on the defect formation energy of β-Ga2O3 is also investigated, and Ga vacancies are found to be easily formed in the case of In doped β-Ga2O3 (InGa2O3) compared to the undoped β-Ga2O3, while O vacancies are much harder to form. This work provides insights into how gallium and oxygen vacancy defects alter electronic and optical properties of β-Ga2O3, seeking to strengthen its radiation tolerance.
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