MONTE CARLO–METROPOLIS METHOD IN THE SOLUTION OF THE ISING MODEL FOR FERROMAGNETISM

Authors

  • Angel Paredes Facultad de Ciencias, Universidad Nacional de Ingeniería. Lima, Perú
  • Héctor Loro Facultad de Ciencias, Universidad Nacional de Ingeniería. Lima, Perú

Abstract

The Montecarlo-Metropolis method is used to describe and analyze the behavior of a bidimensional Ising magneto beginning with different configurations. It is found that bellow the magnet critical temperature, Tc ≈ 2,3 J/ kB the system stays “ordered”, and over this temperature the magnet stays “disordered”. When the temperature is going down, the presence of domains
is found. The size of these domains depends on the rate at which the temperature is decreased.

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References

H.J. Maris & L.J. Kadanoff, Am. J. Phys. 46, 652 (1978).

D. Chandler. Introduction to Modern Statistical Mechanics. Oxford University Press 1987.

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K. Huang. Statistical Mechanics. John Willey, New York, 1987.

M. Peña. Termodinámica Estadística, Alambra 1979.

D. Goodstein. States of Matter. Prentice – Hall, 1975.

F. Reif. Fundamentos de Física Estadística y Térmica, McGraw Hill Book Company, 1968.

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Published

2004-02-01

How to Cite

Paredes, A., & Loro, H. (2004). MONTE CARLO–METROPOLIS METHOD IN THE SOLUTION OF THE ISING MODEL FOR FERROMAGNETISM. Journal of the Science Faculty @ UNI, 8(1), 77–97. Retrieved from https://revistas.uni.edu.pe/index.php/revciuni/article/view/2378

Issue

Vol. 8 No. 1 (2004)

Section

Artículos

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