Hostname: page-component-78c5997874-4rdpn Total loading time: 0 Render date: 2024-11-16T01:19:35.674Z Has data issue: false hasContentIssue false

Nucleation on Defects in Heteroepitaxy

Published online by Cambridge University Press:  15 February 2011

J. A. Venables*
Affiliation:
Department of Physics and Astronomy, Arizona State University, Tempe AZ 85287–1504, School of Chemistry, Physics and Environmental Science, University of Sussex, Brighton, UK.
Get access

Abstract

The rate equation treatment of nucleation and growth on perfect substrates has been extended to cover nucleation on random defect sites, and problems involving 1-dimensional (1D) diffusion to sinks. This paper recaps the results of rate equation treatments on perfect terraces, and sumnarises some new models, including: 1) nucleation on point defects, with application to nm-sized Fe and Co particles grown on various CaF2 substrates; 2) nucleation and diffusion in finite 1D deposits, with application to diffusion over, and the break-up of, multilayer deposits of Ag/Ge(111) and Ag/Fe(110); 3) 1D models developed for nucleation in competition with step capture. Comparison of rate-diffusion equations with experiment can result in values for, or bounds on, the controlling energies, in a way which illuminates the main features of interatomic forces at surfaces. The use of defects to grow thin film arrays for practical application presents some interesting challenges at both the nucleation and growth stages, which are discussed briefly.

Type
Research Article
Copyright
Copyright © Materials Research Society 1997

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

[1] Venables, J. A., Drucker, J. S., Krishnamurthy, M., Raynerd, G. and Doust, T., MRS. Symp. Proc. 198, 93 (1990); J. A. Venables, Surf. Sci. 299/300, 798 (1994) and refs quoted.Google Scholar
[2] Venables, J. A., in Growth and Properties of Ultrathin Epitaxial Layers, edited by King, D. A. and Woodruff, D. P. (Elsevier, 1997 in press), chapter 1.Google Scholar
[3] Early comments on nucleation on defects occur in Advances in Epitaxy and Endotaxy, edited by Schneider, H. G. and Ruth, V. (VEB, Leipzig, 1971), pages 101, 108, 233; in Epitaxial Growth. parts A and B, edited by J. W. Matthews (Academic, 1975), pages 14, 20, 22 (chap. 1), 114 (chap. 25), 223, 228, 263–4, 267 and 271–2 (chap. 31); 386, 392, 415–417, 426–432 (chap. 4).Google Scholar
[4] Frankl, D. R. and Venables, J. A., Adv. Physics 19, 409 (1970), especially pages 444–447.Google Scholar
[5] Venables, J. A., Spiller, G. D. T. and Hanbucken, M., Rep. Prog. Phys. 47, 399 (1984), especially pages 407, 421–4, 437–8 and refs quoted.Google Scholar
[6] Venables, J. A., Phys. Rev. B 36, 4153 (1987).Google Scholar
[7] Bales, G. S. and Chrzan, D. C, Phys. Rev. B 50, 6057 (1994).Google Scholar
[8] Bartelt, M. C. and Evans, J. W., Phys. Rev. B 46, 12675 (1992); J. Vac. Sci. Tech. A12, 1800 (1994); J. G. Amar, F. Family, Phys. Rev. Lett. 74, 2066 (1995); Phys. Rev. B52, 13801 (1995).Google Scholar
[9] Gates, A. D. and Robins, J. L., Thin Solid Films, 149, 113 (1987); J. L. Robins, Appl. Surf. Sci. 33/34, 379 (1988); R. Conrad and M. Harsdorff, Int. J. Electron. 69, 153 (1990).Google Scholar
[10] Chadderton, L. T. and Anderson, M., Thin Films 1, 229 (1968); a recent example of a similar effect is given by A. R. Smith, K-J. Chao, Q. Niu and C-K. Shih, Science 273, 226 (1996).Google Scholar
[11] Corbett, J. M. and Boswell, F. M., J. Appl. Phys. 40 (1969) 2663.Google Scholar
[12] Elliott, A. G., Surf. Sci. 44, 337 (1974).Google Scholar
[13] Mutaftschiev, B., in Dislocations in Solids edited by Nabarro, F. R. N. (North-Holland, Amsterdam, 1980) 5, chapter 19; Reviews are in many places, recently by H. Bethge in: Kinetics of Ordering and Growth at Surfaces, edited by M. G. Lagally, (Plenum Nato ASI, 1990) B239, 125. For ‘double decoration’ see R. Kern and M. Krohn, Phys. Stat. Sol.(a) 116, 23 (1989).Google Scholar
[14] Harding, J., Venables, J. A., Duffy, D. and Stoneham, A. M. (1996) work in progress.Google Scholar
[15] Cardoso, J. and Harsdorff, M., Z. Naturforsch. 33a, 442 (1978); VI. Trofimov, J. Cryst.Growth 54, 211 (1981); M. Harsdorff, Thin Solid Films 116, 55 (1984).Google Scholar