Lattice Defects in Zincblende : Part I. Phenomenological Expressions of Interionic Potentials
スポンサーリンク
概要
- 論文の詳細を見る
As the basis of the calculation on formation energies of lattice defects, phenomenological expressions of interionic potentials are derived. In zincblende crystal which is partly ionic and partly covalent, the effective charge on the constituent ions is reduced to a certain amount Ze (Z = 1.66, e: magnitude of the electronic charge), whereas covalent attraction between two ions adjacent to each other is generated, which is assumed to be exponential form -b_c exp (-γ/pc) such as the usual expression of exchange repulsion. As a preliminary calculation to Part II, the lattice energy variation when one anion or cation is displaced from its regular position in a perfect crystal is calculated on taking account of the Madelung, Van der Waals, exchange repulsion, covalency attraction energies and the polarization energies of the displaced ion and all other surrounding ions. All the physical constants already known in references and derived in our calculation are tabulated in Table III.
- 社団法人日本物理学会の論文
- 1958-10-05
著者
-
Asano Sumitada
Department Of Electronic Engineering Faculty Of Technology Okayama University Of Science
-
Tomishima Yasuo
Department Of Physics Faculty Of Science Okayama
関連論文
- Photoluminescence Properties of ZnF_2:Mn^,(Zn,Mn) F_2 and MnF_2
- Monte Carlo Solutions of Schrodinger's Equation for H^+_2 Ion in Strong Magnetic Fields.II
- Monte Carlo Solutions of Schrodinger's Equation for H^+_2 Ion in Strong Magnetic Fields
- Solution of the Temperature-Dependent Thomas-Fermi-Dirac-Weizsacker Equation with a Correlation Correction
- A Remark on the Kinetic Energy Density Functional for Atoms : Condensed Matter and Statistical Physics
- Inhomogeneity Correction to the Thomas-Fermi Atom in a Strong Magnetic Field
- On the Weizsacker Correction to the Thomas-Fermi Theory of the Atom
- Solution with of the Thomas-Fermi-Dirac Equation with a Modified Weizsacker Correction
- Thomas Fermi-Theory for Atoms in a Strong Magnetic Field
- Energy Levels in the Thomas-Fermi-Dirac Atom
- Investigation of the Luminescence in the SrS: Bi^ Phosphor by Time-Resolved Emission Spectroscopy
- Luminescence of Pb^ Centers in SrS and SrSe Phosphors
- Rotational Lattice Vibration in Complex Crystals Part III. Vibrational Frequencies in Cubic NaClO_4 Crystals
- Calculation of Photoabsorption Cross Section of an Extended Thomas-Fermi Atom
- On the Influence of the Packing on the Atomic Scattering Factor Based on the Thomas-Fermi Theory
- The Thomas-Fermi Theory at Finite Temperature Including Weizsacker and Correlation Corrections:Temperature Green's Function Formalism
- Rotational Lattice Vibration in Complex Crystals Part II. Vibrational Modes in Optical Branches and Interaction with a Conduction Electron
- Rotational Lrttice Vibration in Complex Crystals : Part I. Vicrational Modes and Specific Heat
- Calculation of the Cohesive Energy of Zincblende
- The Inverse Solution of the TFD Equation
- Lattice Defects in Zincblende : Part II. Formation Energy of Lattice Defects
- On the Infrared-Sensitive Behaviors of Some Doubly Activated ZnS Phosphors
- Luminescence Centers of Ca(S:Se): Sn^ Phosphors
- Photoconductivity of Cu-activated Cadmium Sulphide-Selenide
- Luminescence Centers of Ca(S:Se):Bi^ and CaO:Bi^ Phosphors
- Luminescence of Sb^ Centers in MgS Phosphors
- Lattice Defects in Zincblende : Part I. Phenomenological Expressions of Interionic Potentials
- A Relativistic Thomas-Fermi Theory
- On the Spectral Distribntion of Infrared-Stimulated Phosphorescence of Pbactivated ZnuS-Type Phosphors
- Photoluminescence of Sm^Ions in MgS,CaS,SrS and BaS Phosphors
- Voltage Dependence of Electroluminescence of Zn(S:Se):Cu Phosphors
- TFD Functions for Non-zero Temperatures and Equations of State Based on Them