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First-principle calculation on the defect energy level of carbon vacancy in 4H–SiC |
Jia Ren-Xu(贾仁需)†, Zhang Yu-Ming(张玉明), and Zhang Yi-Men(张义门) |
School of Microelectronics, Key Laboratory of Wide Band-Gap Semiconductor Materials and Devices, Xidian University, Xi'an 710071, China |
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Abstract First, electronic structures of perfect wurtzite 4H–SiC were calculated by using first-principle ultra-soft pseudo-potential approach of the plane wave based on the density functional theory; and the structure changes, band structures, and density of states were studied. Then the defect energy level of carbon vacancy in band gap was examined by substituting the carbon in 4H–SiC with carbon vacancy. The calculated results indicate the new defect energy level generated by the carbon vacancy, and its location in the band gap in 4H–SiC, which has the character of deep acceptor. A proper explanation for green luminescence in 4H–SiC is given according to the calculated results which are in good agreement with our measurement results.
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Received: 04 February 2010
Revised: 17 May 2010
Accepted manuscript online:
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PACS:
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61.72.J-
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(Point defects and defect clusters)
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71.15.Dx
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(Computational methodology (Brillouin zone sampling, iterative diagonalization, pseudopotential construction))
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71.15.Mb
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(Density functional theory, local density approximation, gradient and other corrections)
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71.20.Nr
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(Semiconductor compounds)
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71.55.Ht
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(Other nonmetals)
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78.55.Hx
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(Other solid inorganic materials)
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Fund: Project supported by the National Natural Science Foundation of China (Grant No. 60876061) and the Fundamental Research Funds for the Central Universities. |
Cite this article:
Jia Ren-Xu(贾仁需), Zhang Yu-Ming(张玉明), and Zhang Yi-Men(张义门) First-principle calculation on the defect energy level of carbon vacancy in 4H–SiC 2010 Chin. Phys. B 19 107105
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