First Principle Study on the Electronic Structure of FeSe Under Pressure

M. A. Afrassa
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引用次数: 1

Abstract

In Physics, one of the current hot research related to material for energy storage problem is finding superconducting materials that can work at room temperature. In this work we study the properties of FeSe superconductor under pressure. We have performed density functional theory(DFT) calculations as implemented in QUANTUM ESPRESSO. All calculation were executed using the tetragonal leadoxide or P4/nmm structure, and we used experimental value of lattice parameters a and c. We found that superconducting transition temperature (Tc) of FeSe increases sensitively under pressure. We concluded that the change in lattice parameter and the increment in DOS can be an evidence for high Tc . Furthermore, we compared the result of ferro magnetic and anti feromgnetic ordering and we found that the Fermi energy, total energy and the Tc is higher for anti ferromagnetic ordering calculations. The result shows that the lowest occupied state is in ant ferromagnetic order, in agreement with already published. Keywords: Superconductivity (SC), Band structure, Pressure and Transition Temperature (Tc). DOI : 10.7176/APTA/77-04 Publication date :May 31 st 2019
压力下FeSe电子结构的第一性原理研究
在物理学中,寻找能在室温下工作的超导材料是当前与储能材料相关的研究热点之一。本文研究了FeSe超导体在压力作用下的性能。我们已经在QUANTUM ESPRESSO中实现了密度泛函理论(DFT)计算。所有的计算都是使用四方氧化铅或P4/nmm结构进行的,我们使用晶格参数a和c的实验值。我们发现FeSe的超导转变温度(Tc)在压力下敏感地增加。我们得出结论,晶格参数的变化和DOS的增加可以作为高Tc的证据。此外,我们比较了铁磁和反铁磁有序计算的结果,发现反铁磁有序计算的费米能量、总能量和Tc更高。结果表明,最低占位态为非铁磁序态,与已发表的结果一致。关键词:超导,能带结构,压力和转变温度。出版日期:2019年5月31日
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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