Statistical mechanics and the partition of numbers II. The form of crystal surfaces

H. N. V. Temperley

doi:10.1017/S0305004100076453

Abstract

The classical theory of partition of numbers is applied to the problem of determining the equilibrium profile of a simple cubic crystal. It is concluded that it may be thermo-dynamically profitable for the surface to be ‘saw-toothed’ rather than flat, the extra entropy associated with such an arrangement compensating for the additional surface energy. For both a two- and a three-dimensional ‘saw-tooth’ the extra entropy varies, to a first approximation, in the same way as the surface energy, i.e. is proportional to or respectively, where N is the number of molecules in a ‘tooth’. For the simple cubic lattice, the entropy associated with the formation of a tooth containing N atoms is estimated to be 3.3 It is also possible to estimate the variation of the ‘equilibrium roughness’ of a crystal with temperature, if its surface energy is known.

References

REFERENCES

(1)Auluck, F. C.Proc. Camb. phil. Soc. 47 (1951), 679.CrossRef Google Scholar

(2)Auluck, F. C. and Kothari, D. S.Proc. Camb. phil. Soc. 42 (1946), 272.CrossRef Google Scholar

(3)Chaundy, T. W.Quart. J. Math. 2 (1931), 234.CrossRef Google Scholar

(4)Domb, C. and Potts, R. B.Proc. roy. Soc. A, 210 (1951), 125.Google Scholar

(5)Hardy, G. H.Ramanujan (Cambridge, 1940).Google Scholar

(6)Hardy, G. H. and Ramanujan, S.Proc. Lond. math. Soc. (2), 17 (1918), 75.CrossRef Google Scholar

(7)MacMahon, P. A.Combinatory analysis, vol. 2 (Cambridge, 1916).Google Scholar

(8)Onsager, L.Phys. Rev. (2), 65 (1944), 117.CrossRef Google Scholar

(9)Temperley, H. N. V.Proc. roy. Soc. A, 199 (1949), 361.Google Scholar

(10)Wright, E. M.Acta math., Stockh., 63 (1934), 143.CrossRef Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Temperley, H N V 1954. The Mayer Theory of Condensation Tested Against a Simple Model of the Imperfect Gas. Proceedings of the Physical Society. Section A, Vol. 67, Issue. 3, p. 233.

Temperley, H. N. V. 1956. Combinatorial Problems Suggested by the Statistical Mechanics of Domains and of Rubber-Like Molecules. Physical Review, Vol. 103, Issue. 1, p. 1.

Watson, P G 1967. Boundary tension of two-dimensional Ising systems. Proceedings of the Physical Society, Vol. 91, Issue. 4, p. 940.

Wilcox, William R. 1970. The influence of a temperature gradient on crystal faceting. Journal of Crystal Growth, Vol. 7, Issue. 2, p. 203.

Bruin, C. and Compagner, A. 1973. A linear lattice gas with variable mesh size subject to gravity. Physica, Vol. 68, Issue. 1, p. 171.

Bennema, P. and Van Leeuwen, C. 1975. Crystal growth from the vapour phase: Confrontation of theory with experiment. Journal of Crystal Growth, Vol. 31, Issue. , p. 3.

BENNEMA, P. and VAN LEEUWEN, C. 1975. Vapour Growth and Epitaxy. p. 3.

LEAMY, H.J. GILMER, G.H. and JACKSON, K.A. 1975. Surface Physics of Materials. p. 121.

van Leeuwen, C. and Mischgofsky, F. H. 1975. The structure of a single step on the surface of a Kossel crystal in equilibrium: A Monte Carlo simulation. Journal of Applied Physics, Vol. 46, Issue. 3, p. 1056.

Abraham, D. B. and Reed, P. 1976. Interface profile of the Ising ferromagnet in two dimensions. Communications in Mathematical Physics, Vol. 49, Issue. 1, p. 35.

M�ller-Hartmann, E. and Zittartz, J. 1977. Interface free energy and transition temperature of the square-lattice Ising antiferromagnet at finite magnetic field. Zeitschrift f�r Physik B Condensed Matter and Quanta, Vol. 27, Issue. 3, p. 261.

Wallace, D. J. and Zia, R. K. P. 1979. Euclidean Group as a Dynamical Symmetry of Surface Fluctuations: The Planar Interface and Critical Behavior. Physical Review Letters, Vol. 43, Issue. 12, p. 808.

Müller-Krumbhaar, H. 1979. Monte Carlo Methods in Statistical Physics. Vol. 7, Issue. , p. 261.

Abraham, D B and Robert, M A 1980. Phase separation in the spherical model. Journal of Physics A: Mathematical and General, Vol. 13, Issue. 6, p. 2229.

Abraham, D B and Issigoni, M E 1980. Phase separation at the surface of an Ising ferromagnet. Journal of Physics A: Mathematical and General, Vol. 13, Issue. 4, p. L89.

Abraham, D. B. 1980. Solvable Model with a Roughening Transition for a Planar Ising Ferromagnet. Physical Review Letters, Vol. 44, Issue. 18, p. 1165.

Chui, S. T. and Weeks, John D. 1981. Pinning and roughening of one-dimensional models of interfaces and steps. Physical Review B, Vol. 23, Issue. 5, p. 2438.

Burkhardt, T W and Vieira, V R 1981. Molecular-field theory of interface pinning in an external potential. Journal of Physics A: Mathematical and General, Vol. 14, Issue. 6, p. L223.

Abraham, D B 1981. Binding of a domain wall in the planar Ising ferromagnet. Journal of Physics A: Mathematical and General, Vol. 14, Issue. 9, p. L369.

Kroll, D. M. 1981. Solid-on-solid model for the interface pinning transition in Ising ferromagnets. Zeitschrift f�r Physik B Condensed Matter, Vol. 41, Issue. 4, p. 345.

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Statistical mechanics and the partition of numbers II. The form of crystal surfaces

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Statistical mechanics and the partition of numbers II. The form of crystal surfaces

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