Bhavik Thacker, Mitesh B. Solanki, Ratnamala Kharatmol, Yogesh D. Kale, Trilok Akhani
{"title":"探索 Fe-Pt、Fe3-Pt 和 Fe-Pt3 合金的结构、电子、振动和热物理特性:密度泛函理论研究","authors":"Bhavik Thacker, Mitesh B. Solanki, Ratnamala Kharatmol, Yogesh D. Kale, Trilok Akhani","doi":"10.1002/pssb.202400160","DOIUrl":null,"url":null,"abstract":"Utilizing density functional theory, the structural, electronic, vibrational, and thermophysical properties of L1<jats:sub>0</jats:sub> FePt, L1<jats:sub>2</jats:sub> Fe<jats:sub>3</jats:sub>Pt, and L1<jats:sub>2</jats:sub> FePt<jats:sub>3</jats:sub> alloys are meticulously analyzed. Employing projected augmented wave pseudopotentials alongside the Perdew–Burke–Ernzerhof exchange‐correlation function, equilibrium lattice constants are computed, aligning closely with existing data, thus validating our approach. To ascertain the dynamical stability of these alloys, phonon frequencies and density of states across high symmetry directions of the Brillouin zone are computed, affirming their stability with positive phonon frequencies throughout. Furthermore, the electronic band structure, the total and projected density of states, electronic charge density, and Fermi surfaces of the alloys are delved. The thorough analysis of phonon dispersion curves, electronic band structures, and the density of states, charge densities, and Fermi surfaces provides conclusive insights into the properties and behavior of the alloys. In essence, comprehensive investigation offers valuable insights into the thermophysical properties of L1<jats:sub>0</jats:sub> FePt, L1<jats:sub>2</jats:sub> Fe<jats:sub>3</jats:sub>Pt, and L1<jats:sub>2</jats:sub> FePt<jats:sub>3</jats:sub> alloys, spanning equilibrium lattice constants, phonon characteristics, and electronic properties. These findings significantly augment the understanding of the structural stability, phonon dynamics, and electronic behavior exhibited by these alloys.","PeriodicalId":20406,"journal":{"name":"Physica Status Solidi B-basic Solid State Physics","volume":"359 1","pages":""},"PeriodicalIF":1.5000,"publicationDate":"2024-07-31","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Exploring Structural, Electronic, Vibrational, and Thermophysical Properties of Fe–Pt, Fe3–Pt, and Fe–Pt3 Alloys: A Density Functional Theory Study\",\"authors\":\"Bhavik Thacker, Mitesh B. Solanki, Ratnamala Kharatmol, Yogesh D. Kale, Trilok Akhani\",\"doi\":\"10.1002/pssb.202400160\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Utilizing density functional theory, the structural, electronic, vibrational, and thermophysical properties of L1<jats:sub>0</jats:sub> FePt, L1<jats:sub>2</jats:sub> Fe<jats:sub>3</jats:sub>Pt, and L1<jats:sub>2</jats:sub> FePt<jats:sub>3</jats:sub> alloys are meticulously analyzed. Employing projected augmented wave pseudopotentials alongside the Perdew–Burke–Ernzerhof exchange‐correlation function, equilibrium lattice constants are computed, aligning closely with existing data, thus validating our approach. To ascertain the dynamical stability of these alloys, phonon frequencies and density of states across high symmetry directions of the Brillouin zone are computed, affirming their stability with positive phonon frequencies throughout. Furthermore, the electronic band structure, the total and projected density of states, electronic charge density, and Fermi surfaces of the alloys are delved. The thorough analysis of phonon dispersion curves, electronic band structures, and the density of states, charge densities, and Fermi surfaces provides conclusive insights into the properties and behavior of the alloys. In essence, comprehensive investigation offers valuable insights into the thermophysical properties of L1<jats:sub>0</jats:sub> FePt, L1<jats:sub>2</jats:sub> Fe<jats:sub>3</jats:sub>Pt, and L1<jats:sub>2</jats:sub> FePt<jats:sub>3</jats:sub> alloys, spanning equilibrium lattice constants, phonon characteristics, and electronic properties. 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Exploring Structural, Electronic, Vibrational, and Thermophysical Properties of Fe–Pt, Fe3–Pt, and Fe–Pt3 Alloys: A Density Functional Theory Study
Utilizing density functional theory, the structural, electronic, vibrational, and thermophysical properties of L10 FePt, L12 Fe3Pt, and L12 FePt3 alloys are meticulously analyzed. Employing projected augmented wave pseudopotentials alongside the Perdew–Burke–Ernzerhof exchange‐correlation function, equilibrium lattice constants are computed, aligning closely with existing data, thus validating our approach. To ascertain the dynamical stability of these alloys, phonon frequencies and density of states across high symmetry directions of the Brillouin zone are computed, affirming their stability with positive phonon frequencies throughout. Furthermore, the electronic band structure, the total and projected density of states, electronic charge density, and Fermi surfaces of the alloys are delved. The thorough analysis of phonon dispersion curves, electronic band structures, and the density of states, charge densities, and Fermi surfaces provides conclusive insights into the properties and behavior of the alloys. In essence, comprehensive investigation offers valuable insights into the thermophysical properties of L10 FePt, L12 Fe3Pt, and L12 FePt3 alloys, spanning equilibrium lattice constants, phonon characteristics, and electronic properties. These findings significantly augment the understanding of the structural stability, phonon dynamics, and electronic behavior exhibited by these alloys.
期刊介绍:
physica status solidi is devoted to the thorough peer review and the rapid publication of new and important results in all fields of solid state and materials physics, from basic science to applications and devices. Being among the largest and most important international publications, the pss journals publish review articles, letters and original work as well as special issues and conference contributions.
physica status solidi b – basic solid state physics is devoted to topics such as theoretical and experimental investigations of the atomistic and electronic structure of solids in general, phase transitions, electronic and optical properties of low-dimensional, nano-scale, strongly correlated, or disordered systems, superconductivity, magnetism, ferroelectricity etc.