Recent developments of numerical calculation in crystal growth of SiC

Koichi Kakimoto; Satoshi Nakano

doi:10.3131/jvsj2.60.313

Recent developments of numerical calculation in crystal growth of SiC

Research output: Contribution to journal › Review article › peer-review

Abstract

The effect of nitrogen and aluminum as doped impurities on the stability of SiC polytypes (C-or Si-face 4H and 6H substrates) formed by physical vapor transport (PVT) was investigated. The stability of the polytypes was analyzed using classical thermodynamic nucleation theory with numerical results obtained from a global model including heat, mass and species transfer in a PVT furnace. The results reveal that the formation of 4H-SiC was more stable than that of 6H-SiC when a grown crystal was doped with nitrogen using C-face 4H-and 6H-SiC as seed crystals. In contrast, formation of 6H-SiC was favored over 4H-SiC when Si-face 4H-and 6H-SiC seed crystals were used. Meanwhile, the formation of 4H-SiC was more stable than that of 6H-SiC when aluminum was the dopant and C-and Si-faces of 6H-SiC were used as seed crystals. 6H-SiC was preferred to grow rather than 4H-SiC in the cases of C- and Si-faces of 4H-SiC as seed crystals.

Original language	English
Pages (from-to)	313-320
Number of pages	8
Journal	Journal of the Vacuum Society of Japan
Volume	60
Issue number	8
DOIs	https://doi.org/10.3131/jvsj2.60.313
Publication status	Published - 2017
Externally published	Yes

ASJC Scopus subject areas

Materials Science(all)
Instrumentation
Surfaces and Interfaces
Spectroscopy

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title = "Recent developments of numerical calculation in crystal growth of SiC",

abstract = "The effect of nitrogen and aluminum as doped impurities on the stability of SiC polytypes (C-or Si-face 4H and 6H substrates) formed by physical vapor transport (PVT) was investigated. The stability of the polytypes was analyzed using classical thermodynamic nucleation theory with numerical results obtained from a global model including heat, mass and species transfer in a PVT furnace. The results reveal that the formation of 4H-SiC was more stable than that of 6H-SiC when a grown crystal was doped with nitrogen using C-face 4H-and 6H-SiC as seed crystals. In contrast, formation of 6H-SiC was favored over 4H-SiC when Si-face 4H-and 6H-SiC seed crystals were used. Meanwhile, the formation of 4H-SiC was more stable than that of 6H-SiC when aluminum was the dopant and C-and Si-faces of 6H-SiC were used as seed crystals. 6H-SiC was preferred to grow rather than 4H-SiC in the cases of C- and Si-faces of 4H-SiC as seed crystals.",

author = "Koichi Kakimoto and Satoshi Nakano",

year = "2017",

doi = "10.3131/jvsj2.60.313",

language = "English",

volume = "60",

pages = "313--320",

journal = "Shinku/Journal of the Vacuum Society of Japan",

issn = "1882-2398",

publisher = "Vacuum Society of Japan",

number = "8",

}

TY - JOUR

T1 - Recent developments of numerical calculation in crystal growth of SiC

AU - Kakimoto, Koichi

AU - Nakano, Satoshi

PY - 2017

Y1 - 2017

N2 - The effect of nitrogen and aluminum as doped impurities on the stability of SiC polytypes (C-or Si-face 4H and 6H substrates) formed by physical vapor transport (PVT) was investigated. The stability of the polytypes was analyzed using classical thermodynamic nucleation theory with numerical results obtained from a global model including heat, mass and species transfer in a PVT furnace. The results reveal that the formation of 4H-SiC was more stable than that of 6H-SiC when a grown crystal was doped with nitrogen using C-face 4H-and 6H-SiC as seed crystals. In contrast, formation of 6H-SiC was favored over 4H-SiC when Si-face 4H-and 6H-SiC seed crystals were used. Meanwhile, the formation of 4H-SiC was more stable than that of 6H-SiC when aluminum was the dopant and C-and Si-faces of 6H-SiC were used as seed crystals. 6H-SiC was preferred to grow rather than 4H-SiC in the cases of C- and Si-faces of 4H-SiC as seed crystals.

AB - The effect of nitrogen and aluminum as doped impurities on the stability of SiC polytypes (C-or Si-face 4H and 6H substrates) formed by physical vapor transport (PVT) was investigated. The stability of the polytypes was analyzed using classical thermodynamic nucleation theory with numerical results obtained from a global model including heat, mass and species transfer in a PVT furnace. The results reveal that the formation of 4H-SiC was more stable than that of 6H-SiC when a grown crystal was doped with nitrogen using C-face 4H-and 6H-SiC as seed crystals. In contrast, formation of 6H-SiC was favored over 4H-SiC when Si-face 4H-and 6H-SiC seed crystals were used. Meanwhile, the formation of 4H-SiC was more stable than that of 6H-SiC when aluminum was the dopant and C-and Si-faces of 6H-SiC were used as seed crystals. 6H-SiC was preferred to grow rather than 4H-SiC in the cases of C- and Si-faces of 4H-SiC as seed crystals.

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U2 - 10.3131/jvsj2.60.313

DO - 10.3131/jvsj2.60.313

M3 - Review article

AN - SCOPUS:85028413445

SN - 1882-2398

VL - 60

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EP - 320

JO - Shinku/Journal of the Vacuum Society of Japan

JF - Shinku/Journal of the Vacuum Society of Japan

IS - 8

ER -

Recent developments of numerical calculation in crystal growth of SiC

Abstract

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