Hopping Conductivity in One-Dimensional Model System
スポンサーリンク
概要
- 論文の詳細を見る
The frequency dependence of ionic conductivity a(w) in a one-dimensional hopp-ing-model system is investigated by means of tlae pair-approximation of the pathprobability method (PI'M) and the Monte Carlo simulation (MCS), where the MCS-method in calculating o(ca) is developed. Comparative study of the two methodselucidates that the PP}4 correctly reproduces cr(a) obtained by the MCS in the caseof non-interacting ions, but it deviates in the case of strongly interacting ions.
- 社団法人日本物理学会の論文
- 1992-12-15
著者
-
Ishikawa Takuma
Department Of Materials Science Iwakimeisei University
-
Ishii Tadao
Faculty Of Electrical Engineering Osaka University
-
Ishikawa Takuma
Department of Electrical and Electronic Engineering, College of Engineering, Nihon University, Tamura-machi, Koriyama, Fukushima 963-8642, Japan
関連論文
- The Mean-Square Relative Displacement and Displacement Correlation Functions in Tetrahedrally and Octahedrally Coordinated A^NB^ Crystals
- Random Ordered Phase for the Classical Heisenberg Spins on a Triangular Cactus Tree
- Theory of a Disordered Heisenberg Model by the Coherent Potential Approximation
- EXAFS Study on the Local Structure of a New High-T_c Superconductor in the Bi-Sr-Ca-Cu-O System : Electrical Properties of Condensed Matter
- Theory of One-Dimensional Hopping Conductivity : Three-Site Approximation of the PPM
- Frequency Dependence of Ionic Conductivity in Binary Systems.II
- Amplification of Neutral Acoustic Waves in Gaseous Plasmas
- MD Investigation of Defect-Induced Negative Expansion of c-Axis in β-AgI
- Effects of Magnetic Field on the 70 MHz-Component of Instability in n-Type InSb
- Aftervoltage Effects in n-InSb Plasmas
- Monte Carlo Simulation of a Triangular Ising Lattice
- Paramagnetic Resonance Shift Due to Exchange Interaction
- Susceptibility of Ising Ferromagnet of Restricted Dimensionality
- Theory of a Mixture of Two Anisotropic Antiferromagnets with Different Easy Axes
- Variation of Tricritical Point of a Metamagnet with Dilution
- Spin Orientation of Magnetic Impurity Atom in MCl_2 Crystal (M=Fe, Co or Ni)
- Dynamic Properties in the Ising-Like Linear Chain
- Curie Temperature for Dilute Bond-Disordered Ferromagnet by the Use of Coherent Potential Approximation
- Theory of Generalized 3-State Potts Model and Antiferromagnetic Potts Model
- Spin Pair Correlation for an Isotropic Heisenberg Ferromagnet
- Random Mixtire with Competing Exchange Energies and Competing Anisotropy Energies
- Annealed Ising Ferromagnet of Binary Alloys. : I
- Theory of a Mixture of Two Anisotropic Antiferromagnets With Different Easy Axes.II
- Collective Modes of Spin Excitations and Phase Transitions in a Ferromagnet with Single-Ion Anisotropy
- Theory of Two-Magnon Bound States in a Two-Dimensional Antiferromagnet
- Monte Carlo Study of a Triangular Ising Lattice.I
- Critical Behavior of the Spin System with Anisotropic Exchange Interaction. II. : Two-Dimensional Lattice
- Collective Modes of Spin Excitations in a Uniaxial Ferromagnet
- Monte Carlo Simulations for Linear and Non-Linear Susceptibilities of an Antiferromagnet and the Mattis Model
- Two-Magnon Bound States in a Linear Heisenberg Antiferromagnet
- Cluster-Induced Local Distortions and Superionic Transitions of Ionic Conductors AgI and PbF_2 : Condensed Matter: Structure, etc.
- Defect-Induced Surface Sublattice Melting of Ionic Conductor Thin Film : Parallel Ionic Conductivity
- Non-Debye Behavior of Ion-Hopping Conduction
- Hopping Conductivity in One-Dimensional Model System
- Relaxational Fractons in Hopping Conduction on Fractal Lattice
- Kink Hopping in One-Dimensional Ionic Conductors
- Lattice Liquid Theory of Ion-Hopping Conduction : Condensed Matter: Structure, etc.
- Hard-Sphere Model of Activation Energy Originated in Ion Size : Gate Model
- Non-Debye Behavior of Dynamic Conductivity-Relaxon Miniband and Conductivity in Superionic Conductor Superlattice-
- Investigation of Cluster-Induced Distortion and Conductivity of Ionic Conductor CuBr
- Frequency Dependence of Ionic Conductivity in Binary Systems.I
- Zero-Point Spin Reduction of an Antiferromagnet
- Two-Magnon Bound States in the Triangular and Honeycomb Heisenberg Ferromagnets
- Annealed Ising Ferromagnet of Binary Alloys.II
- Application of Real-Space Renormalization Group Theory to a Triangular Ising Lattice
- Localized Spin Waves in Heisenberg Ferromagnets with an Impurity Spin
- Application of Real-Space Renormalization Group Theory to the Antiferromagnetic Potts Model
- Electron-Paramagnetic-Resonance Spectrum of a Spin System with Weak Exchange Couplings
- Low-Frequency Instabilities in InSb Plasmas in Weak Longitudinal Magnetic Fields
- Quasi-Elastic Light Scattering in Hopping Conductors:-Effects of Sublattice-
- High-Temperature Expansions for Frenkel-Kontorova Model
- Relaxation Mode Theory of Hopping Conduction. II : Non-Local Conductivity and Ultrasonic Attenuation : Condensed Matter and Statistical Physics
- Spin Excitation in Dilute Magnets with Ising-Like Couplings on the Square Lattice
- Frequency Exponent of Ionic Conductivity in One-Dimensional Random Lattices
- Quantitative Estimation of Aluminum-Induced Negative Charge Region Top Area of SiO2 Based on Frequency-Dependent AC Surface Photovoltage
- Extended X-Ray Absorption Fine Structure Study on Anharmonic Pair Potential in CuBr
- The Path Probability Ansatz and Master Equation