碳©对MgBXC(x = 1,2)电子结构影响的研究

M. A. Afrassa
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摘要

本文对MgBC和mgb2c的电子结构计算进行了第一性原理研究。采用了Quantum-ESPRESSO中实现的密度泛函理论(DFT)。将其能带结构和态密度(DOS)与已有报道的mgb2进行了比较。可以清楚地观察到,两种化合物中碳的存在改变了费米能级和空穴带。在mgb2c中,费米能级高于MgBC,这抑制了mgb2c中的Tc。在MgBC中,空穴带从伽马方向向上移动到X方向,这可能改善了材料的超导性。比较费米能级的DOS,发现MgBC的值最高(0.9424 state/cell/ev)。通过合理的近似计算,MgB2C和MgBC的Tc值分别为27.07k和41.09k。这表明碳(C)比硼(B)有更好的贡献,MgBC是高Tc的良好候选者。关键词:超导,能带结构,态密度(DOS),密度泛函理论(DFT) DOI: 10.7176/APTA/83-03出版日期:2020年2月29日
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Study on Effect of Carbon© on the Electronic Structure of MgBXC(x = 1, 2)
In this work first principle study on electronic structure calculations for MgBC, and MgB 2 C is presented. The density functional theory (DFT) as implemented in Quantum-ESPRESSO was used. The band structure and density of state (DOS) is compared with the already reported MgB 2 . It is clearly observed that the presence of Carbon in both compounds change the Fermi level and the hole bands. In MgB 2 C the Fermi level is higher than MgBC that results in suppression of Tc in MgB 2 C. In MgBC the hole band shifted up from gamma to X direction and this may improve superconductivity of the material. Comparison of the DOS at the Fermi level reveals that  MgBC has the highest value (0.9424 state/cell/ev). Using reasonable approximations, the calculated Tc values are, 27.07k and 41.09k for MgB2C and MgBC respectively. This suggests that Carbon(C) has a better contribution than Boron(B) and MgBC is a good candidate for high Tc. Keywords : Superconductivity, Band structure, Density of state(DOS), Density Functional theory(DFT) DOI : 10.7176/APTA/83-03 Publication date: February 29 th 2020
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