Structural Phase Transition and Electronic Properties of MgCe under High Pressure from First-principles Calculations

机译：第一原理计算下高压下MGCE的结构相变和电子性质

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The structural stability of MgCe under high pressures has been investigated by using the first-principles plane-wave pseudopotential density functional theory within the local density approximation (LDA). The obtained results predict that MgCe in the Ba structure is predicted to be the most stable structure corresponding to the ground state, because of lowest total energy. MgCe undergoes a pressure-induced phase transition from the Ba structure to B32 structure at 36 GPa. And no further transition is found up to 120 GPa. In addition, the electronic structures of four structures of MgCe are also calculated and discussed.

机译：通过在局部密度近似（LDA）内，通过使用第一原理平面波伪能密度函数理论研究了MGCE在高压下的结构稳定性。所获得的结果预测，由于总能量最低，预测BA结构中的MGCE是对应于地位的最稳定的结构。 MgCE在36GPa下从BA结构到B32结构进行压力诱导的相转变。并且没有进一步的转换，最高可达120 GPa。另外，还计算并讨论了四种MGCE结构的电子结构。

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《International Conference on Mechanical, Control, and Electronic Information》|2014年||共6页
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作者
Qiuxiang Liu; Deping Lu; Ruijun Zhang; Lei Lu; Shifang Xie;
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中图分类 TH16-53;
关键词
MgCe; First-principles calculations; Structural stability; High pressure;

机译：MGCE;第一原理计算;结构稳定性;高压;

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Structural Phase Transition and Electronic Properties of MgCe under High Pressure from First-principles Calculations

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