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Bond Charge Approximation for Valence Electron Density in Elemental Semiconductors

机译：元素半导体中价电子密度的键电荷近似

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The spatial valence electron distribution in silicon and diamond is calculated in adiabatic bond charge approximation at zero temperature when bond charges have the Gaussian shape and their tensor character is taken into account. An agreement between theory and experiment has been achieved. For this purpose Xia's ionic pseudopotentials and Schulze-Unger's dielectric function are used. By two additional parameters Asub(B) and Zsub(B)sup(') we describe the spatial extent of the bond charge and local-field corrections, respectively. The parameter Zsub(B)sup(') accounts for the ratio between the Coulomb and exchange correlation interactions of the valence electrons and its silicon and diamond values have different signs. 30 refs, 4 figs, 3 tabs. (Atomindex citation 17:029339)

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Bashenov, V. K.; Gorbachov, V. E.; Marvakov, D. I.;
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年度 1985
页码 1-23
总页数 23
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Diamonds; Semiconductor Materials; Silicon; Correlations; Crystal Lattices; Dielectric Properties; Electron Density; Electronic Structure; Electrons; Valence;

机译：钻石;半导体材料;硅;相关性;晶体晶格;介电性质;电子密度;电子结构;电子;价态;

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Bond Charge Approximation for Valence Electron Density in Elemental Semiconductors

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