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Monte Carlo Studies of Adsorption Phenomena

Published online by Cambridge University Press:  21 February 2011

W. Selke*
Affiliation:
Institut für Festkörperforschung der KFA, 5170 Jülich, Federal Republic of Germany
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Abstract

Two different adsorption phenomena are studied using, in particular, Monte Carlo techniques: (i) Lattice gas models with competing interactions of ANNNI-type are shown to describe various uniaxial commensurate and incommensurate structures as observed in chemisorbed overlayers such as H on Fe(110) and O2 on Pd(110).

(ii) At interfaces of multi-state models (Potts, spin-i Ising models) nonboundary states are adsorbed preferably; critical properties of this “wetting” phenomenon are investigated.

Type
Research Article
Copyright
Copyright © Materials Research Society 1984

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References

REFERENCES

1. Binder, K. (ed), Monte Carlo Methods in Statistical Physics (Springer, Berlin, Heidelberg, New York 1979)Google Scholar
2. Fisher, M.E. and Selke, W., Phys. Rev. Lett. 44, 1502 (1980)Google Scholar
3. Imbihl, R., Behm, R.J., Christmann, K., Ertl, G., and Matsushima, T., Surface Sci. 117, 257 (1982)Google Scholar
4. Kinzel, W., Selke, W., and Binder, K., Surface Sci. 121, 13 (1982);Google Scholar
4a Selke, W., Binder, K., and Kinzel, W., Surface Sci. 125, 74 (1983)Google Scholar
5. Ertl, G. and Küppers, J., Surface Sci. 21, 61 (1970)Google Scholar
6. Rujan, P., Selke, W., and Uimin, G.V., to be published (1983)Google Scholar
7. Villain, J. and Bak, P., J. Physique 42, 657 (1981)Google Scholar
8. Selke, W. and Pesch, W., Z. Physik B47, 335 (1982)Google Scholar
9. Selke, W. and Huse, D.A., Z. Physik B50, 113 (1983)Google Scholar
10. Selke, W. and Yeomans, J., J. Phys. A16, (1983)Google Scholar
11. Bauer, E., in: Phase Transitions in Surface Films (Plenum, New York, 1979)Google Scholar
12. Roelofs, L.D. and Estrup, P.J., Surface Sci. 125, 51 (1983)Google Scholar
13. Barber, M.N. and Selke, W., J. Phys. A15, L617 (1982);Google Scholar
13a Binder, K., Z. Physik B43, 119 (1981);Google Scholar
13b Lyklema, J., Phys. Rev. B27, 3108 (1983)Google Scholar
14. Ostlund, S., Phys. Rev. B24, 398 (1981);Google Scholar
14a Selke, W. and Yeomans, J.M., Z. Physik B46, 311 (1982);Google Scholar
14b Howes, S.F., Phys. Rev. B27, 1762 (1983)Google Scholar
15. Huse, D.A. and Fisher, M.E., Phys. Rev. Lett. 49, 793 (1982);Google Scholar
15a Huse, D.A., Szpilka, A.M., and Fisher, M.E., to be published (1983)Google Scholar
16. Schulz, H.J., Phys. Rev. B, to be published (1983);Google Scholar
16a Haldane, F.D.M., Bak, P., and Bohr, T., Phys. Rev. B,to be published (1983);Google Scholar
16b von Gehlen, G. and Rittenberg, V., Nucl. Phys. B, to be published (1983)Google Scholar
17. Kinzel, W., preprint (1983)Google Scholar
18. Selke, W. and Fisher, M.E., Z. Physik B40, 71 (1980),Google Scholar
18a Selke, W., Z. Physik B43, 335 (1981)Google Scholar
19. Coppersmith, S.N., Fisher, D.S., Halperin, B.I., Lee, P.A., and Brinkmann, W.F., Phys. Rev. B25, 349 (1982)Google Scholar
20. Moldover, M. and Cahn, J., Science 207, 1073 (1980);Google Scholar
20a Widom, B., J. Chem. Phys. 68, 3878 (1978)Google Scholar
21. Huse, D.A., private communicationGoogle Scholar
22. Abraham, D.B. and Smith, E.R., Phys. Rev. B26, 1480 (1982)Google Scholar
23. Fisher, M.E. and de Gennes, P.G., Acad, C.R.. Sci. Paris B287, 207 (1978)Google Scholar
24. Schick, M., Prog. Surface Sci. 11, 245 (1981);Google Scholar
24a see also Saito, Y., Phys. Rev. B24, 6652 (1981)Google Scholar