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Department of Engineering Science, Faculty of Engineering Tohoku University | 論文
- Linear Surprisal and Stochastic Process. II : Within the Framework of Fokker-Planck Equation : Condensed Matter and Statistical Physics
- Linear Surprisal and Simple Birth, Death and Immigration Process : Condensed Matter and Statistical Physics
- Constraint on √ and Exciton Number
- Two-Dimensional Random Walk Process in Heavy Ion Collisions
- Coherent-Anomaly Analysis with Cluster Variation Method for Two-Dimensional Ising Model with Nearest-Neighbor and Next-Nearest-Neighbor Interactions
- Low-Temperature Behavior of Antiferromagnetic Ising Model on Triangular Lattice
- Coherent-Anomaly Analysis with Cluster Variation Method for Spin-Pair Correlation Function of Ising Model on Square Lattice
- Coherent-Anomaly Method for the Wave-Number Dependence of the Susceptibility
- Correlation Functions of a One-Dimensional Lattice Gas with Nearest-Neighbor and Next-Nearest-Neighbor Interactions : Condensed Matter and Statistical Physics
- Correlation Functions of a One-Dimensional Lattice Gas with Interactions Up to Third-Nearest Neighbors
- Dynamical Properties of the Diluted Heisenberg and XY Magnets at Infinite Temperature. I : Spin Diffusion Constant
- Universality Class for Spin Model With Generalized Ising Spin on One-Dimensional Lattice : Progress Letters
- Formal Structure of the Cluster Variation Method
- Asymptotic Behaviors of Modified Block Toeplitz Determinant : General and Mathematical Physics
- Asymptotic Forms of Some Block Toeplitz Determinants : General and Mathematical Physics
- Note on the Susceptibility of the Two-Dimensional Heisenberg Ferromagnet
- Susceptibility and Correlation Function of the Ising Model on the Cayley Tree
- Asymptotic Behavior of Spin-Pair Correlation Function of Ising Model on Checkerboard Lattice : Condensed Matter and Statistical Physics
- An Approximation Scheme of the Cluster Variation Method for Quantum Lattice Gases : Condensed Matter and Statistical Physics
- A Lattice-Gas Model Equivalent to the t-J Model : Condensed Matter and Statistical Physics