- Autor(in)
- Sponsor(in)
- Referenz
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1 G. Alefeld, J. Völkl (eds.), Hydrogen in metals, Springer (being Volume 28 of Topics in Applied Physics), Berlin New York 1978, particularly Chapters 3, 8 and 12
2 G. Alefeld, J. Völkl (eds.), Hydrogen in metals, Springer (being Volume 29 of Topics in Applied Physics), Berlin New York 1978, particularly Chapters 2 and 8
3 Y. Fukai, The metal-hydrogen system, Springer, Berlin New York 1993 and references cited therein
4 H. S. Carslaw, J. C. Jaeger, Conduction of heat in solids, Oxford Univ. Press, London 1959, p. 328
5 H. L. Frisch, F. C. Collins, J. Chem. Phys. 20 (1952) 1797;
6 J. Crank, The mathematics of diffusion, Oxford Univ. Press, London 1975, p. 84
7 V. A. Vyssotsky, S. B. Gordon, H. L. Frisch, Phys. Rev. 123 (1961) 1566
8 H. L. Frisch, J. M. Hammersley, D. J. A. Welsh, Phys. Rev. 126 (1962) 949
9 J. M. Hammersley, D. C. Handcomb, Monte Carlo methods, Methuen, London 1964
J. Chem. Phys. 21 (1953) 1116
- Seitenbereich
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0695 - 0705
- Schlagwort(e)
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<KWD>Hydrogen in metals
Hydrogen-clusters
- Zusammenfsg.
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We show that a simple diffusion controlled growth, with subsequent aggregation, mean field theory accounts numerically for the growth of hydrogen clusters in certain metals (e.g. V, Nb, Zr, etc.). We also calculate the percolation threshold for the formation of an "infinite" aggregate both analytically and by a Monte Carlo simulation in a cubic lattice. The results are comparable and seem to correspond to the observed physical behavior.
- Artikel-Typen
- Forschungsartikel