Finite Size Effects in the Critical Dynamics of the Kinetic Ising Model
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概要
- 論文の詳細を見る
The time constant which characterizes the critical slowing down of the kinetic Ising model is studied as a function of system size for n×n lattices with periodic boundary conditions, for n from two to ten. In particular, it is shown that the behavior of this time constant at the temperature at which the specific heat exhibits a maximum is consistent with Suzuki's finite size dynamical scaling theory and yields a dynamical critical exponent of z〜__-2.
- 理論物理学刊行会の論文
- 1979-12-25
著者
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Gunton J.
Physics Department Temple University
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YALABIK M.
Physics Department, Middle East Technical University
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Gunton Jim
Physics Department, Temple University
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Yalabik M.C.
Physics Department, Middle East Technical University
関連論文
- Renormalization Group Equations in Critical Dynamics. II : Binary Liquid, Superfluid Helium and Magnets
- Finite Size Effects in the Critical Dynamics of the Kinetic Ising Model