Topic Review: Application of Raman Spectroscopy Characterization in Micro/Nano-Machining

Xu, Zongwei; He, Zhongdu; Song, Ying; Fu, Xianliang; Rommel, Mathias; Luo, Xichun; Hartmaier, Alexander; Zhang, Jun Jie; Fang, Fengzhou

doi:10.3390/mi9070361

Cited by 118 publications

(64 citation statements)

References 98 publications

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“…The absorption depth of the exciting line at 325 nm in SiC is approximately 4 μm, which has been confirmed by Xu et al and Derst et al [34,35]. With such laser, the LOPCsub peak could not have been found in any Raman spectrum of the investigated epi sample, because the epi layer thickness of the tested samples is larger than 5 μm, which supports the above conclusion that the LOPCsub peak shown in Figure 5 is originating from the substrate only.…”

Section: Experimental Raman Results With Photo-generated Carrierssupporting

confidence: 82%

Raman Characterization of Carrier Concentrations of Al-implanted 4H-SiC with Low Carrier Concentration by Photo-Generated Carrier Effect

Liu

Rommel

et al. 2019

Crystals

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In this work, 4H SiC samples with a multilayer structure (shallow implanted layer in a lowly doped n-type epitaxial layer grown on a highly doped thick substrate) were investigated by Raman scattering. First, Raman depth profiling was performed to identify characteristic peaks for the different layers. Then, Raman scattering was used to characterize the carrier concentration of the samples. In contrast to the conventional Raman scattering measuring method of the Longitudinal Optical Plasmon Coupled (LOPC) mode, which is only suitable to characterize carrier concentrations in the range from 2 × 1016 to 5 × 1018 cm−3, in this work, Raman scattering, which is based on exciting photons with an energy above the band gap of 4H-SiC, was used. The proposed method was evaluated and approved for different Al-implanted samples. It was found that with increasing laser power the Al-implanted layers lead to a consistent redshift of the LOPC Raman peak compared to the peak of the non-implanted layer, which might be explained by a consistent change in effective photo-generated carrier concentration. Besides, it could be demonstrated that the lower concentration limit of the conventional approach can be extended to a value of 5 × 1015 cm−3 with the approach presented here.

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Section: Experimental Raman Results With Photo-generated Carrierssupporting

confidence: 82%

Raman Characterization of Carrier Concentrations of Al-implanted 4H-SiC with Low Carrier Concentration by Photo-Generated Carrier Effect

Liu

Rommel

et al. 2019

Crystals

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“…The penetration depth of a laser is dependent on the material absorption coefficient, α, which is wavelength-and temperature-dependent, but for a constant α, intensity decays exponentially with depth, according to the Beer-Lambert Law. For a 532 nm laser the penetration depth in Si is ~0.7 μm [67]. The lowest intensities are from just outside where…”

Section: Sic/si Relationshipmentioning

confidence: 99%

X-ray Laue Microdiffraction and Raman Spectroscopic Investigation of Natural Silicon and Moissanite

et al. 2020

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Moissanite, SiC, is an uncommon accessory mineral that forms under low oxygen fugacity. Here, we analyze natural SiC from a Miocene tuff-sandstone using synchrotron Laue microdiffraction and Raman spectroscopy, in order to better understand the SiC phases and formation physics. The studied crystals of SiC consist of 4H- and 6H-SiC domains, formed from either, continuous growth or, in one case, intergrown, together with native Si. The native Si is polycrystalline, with a large crystal size relative to the analytical beam dimensions (>1–2 μm). We find that the intergrown region shows low distortion or dislocation density in SiC, but these features are comparatively high in Si. The distortion/deformation observed in Si may have been caused by a mismatch in the coefficients of thermal expansion of the two materials. Raman spectroscopic measurements are discussed in combination with our Laue microdiffraction results. Our results suggest that these SiC grains likely grew from an igneous melt.

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“…При этом в рамановском спектре наблюдается отдельная неперекрывающаяся мода, локализованная около 792 см −1 , представляющая собой поперечный оптический фонон TO SiC , запрещенный в выбранной геометрии съемки. Появление этой фононной моды в рамановском спектре вызвано возникновением дефектов упаковки в слое SiC [35].…”

Section: рамановская спектроскопияunclassified

Оптические свойства гибридных гетероструктур GaN/SiC/por-Si/Si(111)

Seredin¹,

Голощапов²,

Zolotukhin³

et al. 2020

Физика И Техника Полупроводников

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Комплексом структурно-спектроскопических методов диагностики исследовано влияние переходного слоя нанопористого кремния на оптические свойства слоев GaN, выращенных методом молекулярно-пучковой эпитаксии с плазменной активацией азота (МПЭ ПА) на темплейтах SiC/por-Si/c-Si. Впервые показано, что использование технологии МПЭ ПА для синтеза GaN на виртуальной подложке SiC/por-Si/c-Si позволило нам получить пленку GaN со значительно более высоким структурным качеством и оптическим совершенством и при значительно более низкой температуре роста, чем в аналогичных работах, в которых демонстрировался рост с использованием пористых подложек Si. Использование нанопористого por-Si слоя позволяет улучшить структурные и морфологические свойства эпитаксиального слоя GaN, а также добиться у него уникальных оптических и электрофизических характеристик. Полученные данные послужат важным материалом для понимания основ физики наногетероструктур GaN/SiC/por-Si, способствуя их потенциальному применению в оптоэлектронике. Ключевые слова: гибридные гетероструктуры, карбид кремния, нитрид галлия, нанопористый кремний, молекулярно-пучковая эпитаксия с плазменной активацией азота.

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Topic Review: Application of Raman Spectroscopy Characterization in Micro/Nano-Machining

Cited by 118 publications

References 98 publications

Raman Characterization of Carrier Concentrations of Al-implanted 4H-SiC with Low Carrier Concentration by Photo-Generated Carrier Effect

Raman Characterization of Carrier Concentrations of Al-implanted 4H-SiC with Low Carrier Concentration by Photo-Generated Carrier Effect

X-ray Laue Microdiffraction and Raman Spectroscopic Investigation of Natural Silicon and Moissanite

Оптические свойства гибридных гетероструктур GaN/SiC/por-Si/Si(111)

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