Study of the Electronic and the Structural Properties of Iron Monosilicide via Plane Wave Density Functional Theory Calculations

Byeong June Min; Heon-Jung Kim

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Study of the Electronic and the Structural Properties of Iron Monosilicide via Plane Wave Density Functional Theory Calculations

机译：平面波密度泛函理论计算研究单硅化铁的电子和结构性质

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We studied the electronic and the structural properties of iron monosilicide in low-pressure ε-phase structure and in the high-pressure CsCl structure via pseudopotential plane wave density functional calculations within the local spin density approximation (LSDA) and the generalized gradient approximation (GGA). The relaxation of the internal parameters of ε-FeSi opens up the band gap in the LSDA while it only increases the magnitude of the band gap in the GGA The structural transition from the ε-phase to the CsCl-phase is estimated to occur at about 19 GPa in GGA, in good agreement with the synthesis of the CsCl-phase of FeSi at 24 GPa.

机译：我们通过局部自旋密度逼近（LSDA）和广义梯度逼近（GGA）中的伪势平面波密度泛函计算研究了低压ε相结构和高压CsCl结构中单硅化铁的电子和结构性质）。 ε-FeSi内部参数的松弛打开了LSDA中的带隙，而仅增加了GGA中的带隙的幅度。据估计，从ε相到CsCl相的结构转变发生在大约GGA中的19 GPa与24 GPa时FeSi的CsCl相的合成非常吻合。

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《Journal of the Korean Physical Society》 |2013年第5期|共6页
作者
Byeong June Min; Heon-Jung Kim;
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正文语种 eng
中图分类物理学;
关键词
Iron monosilicide; Ab-initio calculation; Structural transformation;

机译：单硅化铁;Ab-起始计算;结构转变;

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Study of the Electronic and the Structural Properties of Iron Monosilicide via Plane Wave Density Functional Theory Calculations

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