Affiliation:
1. Mathematics Department, Faculty of Science , Minia University , 61915 El-Minia , Egypt
Abstract
Abstract
The one-dimensional Ising model with various boundary conditions is considered. Exact expressions for the thermodynamic and magnetic properties of the model using different kinds of boundary conditions [Dirichlet (D), Neumann (N), and a combination of Neumann–Dirichlet (ND)] are presented in the absence (presence) of a magnetic field. The finite-size scaling functions for internal energy, heat capacity, entropy, magnetisation, and magnetic susceptibility are derived and analysed as function of the temperature and the field. We show that the properties of the one-dimensional Ising model is affected by the finite size of the system and the imposed boundary conditions. The thermodynamic limit in which the finite-size functions approach the bulk case is also discussed.
Subject
Physical and Theoretical Chemistry,General Physics and Astronomy,Mathematical Physics
Reference13 articles.
1. M. E. Fisher, in: Critical Phenomena, International School of Physics “Enrico Fermi” (Ed. M. S. Green), Academic Press, New York 1971, p. 1.
2. M. N. Barber, in: Phase Transition and Critical Phenomena (Eds. C. Domb, J. L. Lebowitz), Academic Press, London 1983, p. 144
3. V. Privman, in: Finite Size Scaling and Numerical Simulation of Statistical Systems (Ed. V. Privman), World Scientific, Singapore 1990, p. 1.
4. J. G. Brankov, D. M. Danchev, and N. Tonchev, in: Theory of Critical Phenomena in Finite-Size Systems-Scaling and Quantum Effects, World Scientific, Singapore 2000, p. 1.
5. K. Binder, Z. Phys. B 43, 119 (1981).
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