Abstract
By means of the nuclear orientation technique a systematic study of the behaviour of xenon implanted in iron has been done. Strong evidence for the dose dependence of the substitutional fraction is shown. Radiation damage during implantation is obviously the cause of this phenomenon. By means of a general mathematical model one can describe what happens during implantation. A physical two-site model derived from the general one enabled us to explain the dose dependence of the substitutional fraction. At the same time, the dependence of the substitutional fraction on other parameters as temperature and ion flux appears in the equations.
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S.R. Reintsema, S.A. Drentje, P. Schurer and H. de Waard Rad. Eff. 24 (1975) 145.
M. Van Rossum, G. Langouche, H. Pattyn G. Dumont, J. Odeurs, A. Meykens, R. Coussement and P. Boolchand, Proc. 20th Ann. Conf. on magnetism and magnetic materials, San Fransisco, 1975, p. 460.
L.C. Feldman and D.E. Murnick, Phys. Rev. B5 (1972) 1.
I. Sondhi, J. Chem. Phys. 82 (1975) 1385.
R.H. Blin-Stoyle and M.A. Grace, Handbook Phys. (1957) 555.
H. Pattyn, R. Coussement, G. Dumont, E. Schoeters, R. E. Silverans, and L. Vanneste, Phys. Lett. 45A (1973) 131.
H. de Waard, Mössbauer spectra and its applications (IAEA, Vienna 1971) 123.
H. de Waard, R.L. Cohen, S.R. Reintsema and S.A. Drentje, Phys. Rev. B10 (1974) 3760.
J. Odeurs, R. Coussement and H. Pattyn, Internal Report IKS (1975).
E. Schoeters, R. Coussement, R. Geerts, J. Odeurs, H. Pattyn, R.E. Silverans and L. Vanneste, Int. Meeting on hyperfine interactions, Leuven, 1975, Hyperfine Interactions 2 (1976).
L. Eriksson, G.R. Bellavance and J.A. Davies, Rad. Eff. 1 (1969) 71.
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Odeurs, J., Coussement, R., Pattyn, H. et al. Dose dependence of the substitutional fraction of Xe implanted in Fe. Hyperfine Interact 1, 419–427 (1975). https://doi.org/10.1007/BF01022472
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DOI: https://doi.org/10.1007/BF01022472