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
Highlights
Superconductivity has been observed in different class of materials since the first report in 1911
Effects of Pressure on lattice parameters In this work we present the electronic structure of FeSe under pressure
We have studied the effect of external pressure on both crystal and electronic structures of FeSe superconductors
Summary
Superconductivity has been observed in different class of materials since the first report in 1911. The phenomena has been studied theoretically and 1experimentally. The reports showed that the superconducting critical temperature Tc raised under the actions of doping, and pressure. In 2008 a new superconductor(LaF eAsO 1−x Fx) was found that contains magnetic element, Iron[1]. This was one of the important discovery in the history of Superconductivity. After this report the study of superconductivity shifted its focus from ceramic material to ironbased material
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