4H-SiC中星形缺陷引起的堆垛层错

Q4 Physics and Astronomy
Sami A. El Hageali, N. Mahadik, R. Stahlbush, H. Guthrey, S. Johnston, Jake Soto, B. Odekirk, B. Gorman, M. Al‐Jassim
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引用次数: 0

摘要

目前,人们正在努力研究SiC外延层中基底面位错(bpd)的各种来源。bpd会在SiC外延层中产生Shockley-type stacking faults (ssf),这与功率器件的退化有关。该研究表明,星形缺陷可能是外延层中几种bpd的来源。我们利用各种互补显微镜和光学技术研究了星状缺陷的复杂微观结构、bpd的产生和ssf的扩展。我们展示了直接证据,表明星缺陷可以是单ssf的成核点,可以在缺陷的核心扩展。新发现的次位错阵列延伸了几厘米远,被发现是从恒星缺陷的主臂发出的。位错壁的存在和单ssf的膨胀会影响晶圆上大量晶圆的成品率。本研究提供的对星型缺陷产生的层错形成机制的进一步理解,有助于理解它们对sic基器件的影响,这对评估器件可靠性至关重要。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Stacking Faults Originating from Star-Defects in 4H-SiC
Intense efforts are currently in progress to study various sources of basal plane dislocations (BPDs) in SiC epitaxial layers. BPDs can generate Shockley-type stacking faults (SSFs) in SiC epitaxial layers, which have been shown to be associated with the degradation of power devices. This study shows that the star-shaped defect can be a source of several BPDs in the epitaxial layer. We investigate the complex microstructure of the star defect, the generation of BPDs, and expansion of SSFs using various complementary microscopy and optical techniques. We show direct evidence that star-defects can be a nucleation point of single-SSFs that can expand at the core of the defect. Newly found secondary dislocation arrays extending over a few centimeters away are found to be emanating from the primary arms of the star defect. The presence of such dislocation walls and the expansion of single-SSFs will affect the yield of numerous die on a wafer. Further understanding of the formation mechanism of stacking faults generated from star-defects as provided in this study helps understand their effect on SiC-based devices, which is crucial to assess device reliability.
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来源期刊
Defect and Diffusion Forum
Defect and Diffusion Forum Physics and Astronomy-Radiation
CiteScore
1.20
自引率
0.00%
发文量
127
期刊介绍: Defect and Diffusion Forum (formerly Part A of ''''Diffusion and Defect Data'''') is designed for publication of up-to-date scientific research and applied aspects in the area of formation and dissemination of defects in solid materials, including the phenomena of diffusion. In addition to the traditional topic of mass diffusion, the journal is open to papers from the area of heat transfer in solids, liquids and gases, materials and substances. All papers are peer-reviewed and edited. Members of Editorial Boards and Associate Editors are invited to submit papers for publication in “Defect and Diffusion Forum” . Authors retain the right to publish an extended and significantly updated version in another periodical.
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