Experimental verification of the model by Klapper for 4H-SiC homoepitaxy on vicinal substrates

Kallinger, Birgit; Polster, Sebastian; Berwian, Patrick; Friеdrich, J.; Danilewsky, A.N.

doi:10.1063/1.4829707

Cited by 10 publications

(8 citation statements)

References 25 publications

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“…The increasing demand for high performance and low cost SiC‐based devices is driving the development of epitaxy towards lower off‐cut angle substrates. This is motivated by the expected increase of the conversion rate of basal plane dislocations (BPDs) to threading edge dislocations and consequently, a reduction of the BPD density in epilayers using lower off‐cut angles . During long term forward operation of SiC bipolar devices using epilayers grown on off‐cut substrates, formation of stacking faults (SFs) results in an increased forward voltage drop which causes degradation of the device.…”

Section: Introductionmentioning

confidence: 99%

In‐grown stacking‐faults in 4H‐SiC epilayers grown on 2° off‐cut substrates

Lilja

Ul-Hassan

Janzén

et al. 2015

Physica Status Solidi (b)

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Phone: þ46 13 286 745, Fax: þ46 13 137 568 4H-SiC epilayers were grown on 28 off-cut substrates using standard silane/propane chemistry, with the aim of characterizing in-grown stacking faults. The stacking faults were analyzed with low temperature photoluminescence spectroscopy, room temperature photoluminescence mappings, room temperature cathodoluminescence and synchrotron white beam X-ray topography. At least three different types of ingrown stacking faults were observed, including double Shockley stacking faults, triple Shockley stacking faults and bar-shaped stacking faults. Those stacking faults are all previously found in 48 and 88 off-cut epilayers; however, the geometrical size is larger in epilayers grown on 28 off-cut substrates due to lower off-cut angle. The stacking faults were formed close to the epilayer/substrate interface during the epitaxial growth.

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Section: Introductionmentioning

confidence: 99%

In‐grown stacking‐faults in 4H‐SiC epilayers grown on 2° off‐cut substrates

Lilja

Ul-Hassan

Janzén

et al. 2015

Physica Status Solidi (b)

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“…The dislocations we observe display a similar contrast and are nearly parallel to the c-axis. The threading dislocations parallel to the c-axis in 4H-SiC that have been reported [5,6] are either screw dislocations or edge dislocations displaying a Burgers vector along 1120. We discard the screw dislocation case because it is such that h.b = 0, h being the diffraction vector (perpendicular to the 4040 planes) and b the Burgers vector (parallel to c), and therefore, these dislocations should not be observed because they produce nearly no contrast in the image [16].…”

Section: Discussionmentioning

confidence: 95%

“…When this distance D is in the range 50-250 µm, we observe a weak (~µradian) distortion of the region lying between parallel dislocations with opposite Burgers vectors. Dislocations in 4H-SiC crystals have been extensively studied through X-ray diffraction Rocking Curve Imaging (see for instance [4][5][6][7][8][9]). The faint distortion we observe had not been investigated previously because there was no available experimental technique allowing its visualisation.…”

Section: Introductionmentioning

confidence: 99%

Rocking Curve Imaging Investigation of the Long-Range Distortion Field between Parallel Dislocations with Opposite Burgers Vectors

et al. 2021

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We observe a long-range distortion field between parallel dislocations with opposite Burgers vectors in a platelet-shaped single crystal of 4H-SiC with a low dislocation density (~103 cm/cm3). This distortion field is in the µradian range when the distance D between dislocations is in the ~50–250 µm range. We were able to characterise this weak distortion field through Rocking Curve Imaging (RCI), a highly sensitive Bragg diffraction imaging technique using monochromatic synchrotron radiation. From the experimental images, we generate maps of the angle of maximum reflectance (“peak position”) that provide a measurement of the local lattice orientation. Deviations from the crystal matrix orientation are associated with the long-range distortion field around dislocations. Between parallel dislocations with opposite Burgers vectors, this distortion does not decay to zero but towards a constant value α. We propose a simple model considering the angular parameter α characterising the distortion. This model indicates that α should roughly vary as 1/D. This appears to be in fair agreement with our experimental data.

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“…It could be shown that the harmful BPDs can be converted into non‐dangerous threading edge dislocations (TED) during the epi‐process. The experimental findings could be explained by the so‐called Klapper model, showing that the off‐cut angle of the vicinal substrates is one of the most important parameters for improving BPD conversion. Based on experimental and theoretical results from different groups worldwide the off‐cut angle of the vicinal substrates was changed during that time in the whole SiC industry from 8° to 4° because of the related increase of the conversion probability for BPDs into TEDs during the epitaxial growth.…”

Section: Development Of Wide Bandgap Semiconductors (Sic Gan Aln)—cmentioning

confidence: 98%

Erlangen—An Important Center of Crystal Growth and Epitaxy: Major Scientific Results and Technological Solutions of the Last Four Decades

Friеdrich

Müller

2019

Crystal Research and Technology

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This article describes the historic development of the Erlangen Crystal GrowthLaboratory CGL from its beginnings in 1974 at the chair of Materials of Electrical Engineering (Department of Material Science) of the University of Erlangen-Nuremberg until its current status as a large department "Materials" of the Erlangen Fraunhofer-Institute for Integrated Systems and Device Technology. Essential developments and scientific achievements in the various fields of crystal growth and epitaxy are presented from the early period until today.

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Experimental verification of the model by Klapper for 4H-SiC homoepitaxy on vicinal substrates

Cited by 10 publications

References 25 publications

In‐grown stacking‐faults in 4H‐SiC epilayers grown on 2° off‐cut substrates

In‐grown stacking‐faults in 4H‐SiC epilayers grown on 2° off‐cut substrates

Rocking Curve Imaging Investigation of the Long-Range Distortion Field between Parallel Dislocations with Opposite Burgers Vectors

Erlangen—An Important Center of Crystal Growth and Epitaxy: Major Scientific Results and Technological Solutions of the Last Four Decades

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