Self-trapped holes in β-Ga2O3 crystals

超精细结构 电子顺磁共振 化学 未成对电子 Crystal(编程语言) 原子物理学 顺磁性 费米能级 凝聚态物理 结晶学 电子 核磁共振 物理 核物理学 有机化学 计算机科学 程序设计语言
作者
B. E. Kananen,N. C. Giles,L. E. Halliburton,Greg Foundos,Kelvin B. Chang,K. T. Stevens
出处
期刊:Journal of Applied Physics [American Institute of Physics]
卷期号:122 (21) 被引量:118
标识
DOI:10.1063/1.5007095
摘要

We have experimentally observed self-trapped holes (STHs) in a β-Ga2O3 crystal using electron paramagnetic resonance (EPR). These STHs are an intrinsic defect in this wide-band-gap semiconductor and may serve as a significant deterrent to producing usable p-type material. In our study, an as-grown undoped n-type β-Ga2O3 crystal was initially irradiated near room temperature with high-energy neutrons. This produced gallium vacancies (acceptors) and lowered the Fermi level. The STHs (i.e., small polarons) were then formed during a subsequent irradiation at 77 K with x rays. Warming the crystal above 90 K destroyed the STHs. This low thermal stability is a strong indicator that the STH is the correct assignment for these new defects. The S = 1/2 EPR spectrum from the STHs is easily observed near 30 K. A holelike angular dependence of the g matrix (the principal values are 2.0026, 2.0072, and 2.0461) suggests that the defect's unpaired spin is localized on one oxygen ion in a nonbonding p orbital aligned near the a direction in the crystal. The EPR spectrum also has resolved hyperfine structure due to equal and nearly isotropic interactions with 69,71Ga nuclei at two neighboring Ga sites. With the magnetic field along the a direction, the hyperfine parameters are 0.92 mT for the 69Ga nuclei and 1.16 mT for the 71Ga nuclei.

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