Теоретичне дослідження в рамках двозонної моделі надпровідних та термодинамічних властивостей високотемпературного надпровідника на основі заліза Ba1–xNaxFe2As2

Теоретичне дослідження в рамках двозонної моделі надпровідних та термодинамічних властивостей високотемпературного надпровідника на основі заліза Ba1–xNaxFe2As2

This work presents the theoretical investigation of the superconducting and thermodynamic properties of the two-band model high-temperature iron-based superconductor Ba1-xNaxFe2As2. By developing a model Hamiltonian and by employing the well-knownvdouble-time temperature-dependent Green’s function f...

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Bibliographic Details
Date:2023
Main Authors: Lissanu, T., Kahsay, G., Negussie, T.
Format: Article
Language:English
Published: Publishing house "Academperiodika" 2023
Subjects:
параметри порядка
питома теплота
густина станiв
енергiя конденсацiї
Ba1−xNaxFe2As2
Online Access:https://ujp.bitp.kiev.ua/index.php/ujp/article/view/2021429
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Journal Title:Ukrainian Journal of Physics

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Ukrainian Journal of Physics
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Summary:This work presents the theoretical investigation of the superconducting and thermodynamic properties of the two-band model high-temperature iron-based superconductor Ba1-xNaxFe2As2. By developing a model Hamiltonian and by employing the well-knownvdouble-time temperature-dependent Green’s function formalism, we have computed the superconducting orderbparameters for the electron and hole intra- and inter-band transitions, superconducting transition temperature, densitiesbof states, and condensation energies. Furthermore, the electronic specific heat and the entropy for electron and hole intra-band transitions have been determined. By using appropriate experimental data and some credible approximations of the parameters in the computed expressions, we have found the phase diagrams of superconducting order parameters versus the temperature, superconducting critical temperature versus the inter-band interaction potential, temperature dependences of the electronic specific heat and entropy for electron and hole intra-band transitions, and densities of states for the electron and hole intra-band transitions as functions of the excitation energy at different values of the temperature. Finally, the phase diagrams of the condensation energy versus the temperature, inter-band pairing potential at T = 0 K versus the condensation energy, and condensation energy versus the superconducting transition temperature (TC) have been drawn. In some of the phase diagrams, the comparison between theoretical and experimental values has been made. The results are in a good agreement with previous findings.

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