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On the stability of bcc Co in Co/Fe superlattices an NMR and XRD study

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Zeitschrift für Physik B Condensed Matter

Abstract

While RHEED observations show that 10 to 11 As is the stability limit for an open bcc Co layer when grown on an Fe substrate, our XRD and NMR studies have shown that, in MBE grown Co/Fe superlattices, cobalt can be stabilised in a bcc structure up to a critical Co thickness of 21 Ås. In order to understand this apparent discrepancy, NMR experiments have been carried out in Cox/Fey multilayers with thickness varying in the range 5 Å < x < 42 Å and 24 Å < y < 60 Å, grown on GaAs (1 1 0) as well as on MgO (1 0 0) substrates. The analysis of the chemical short range order by NMR concludes that the larger bcc Co thickness observed in superlattices results from the formation of a rather homogeneous CoFe20% bcc alloy which contains the supplementary 10–11 As of Co and which coexists with pure Co grains. The concentration of about 20% Fe in the alloyed part of the Co layer happens to be close to the stability limit for a bcc structure in the equilibrium phase diagram of bulk CoFe alloys. However, while a mixture of bcc and fcc phases is observed in bulk alloys, the bcc structure is preserved in all phases under the MBE growth conditions and below the critical thickness. Above the critical thickness amixture of bcc Co, bcc CoFe and hcp Co is observed.

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Authors and Affiliations

  1. Institut de Physique et Chimie des Matériaux de Strasbourg (CNRS-ULP), 23 rue de Loess, F-67037, Strasbourg, France

    J.P. Jay & P. Panissod

  2. Institute of Physics, Polish Academy of Sciences, PL-02 668, Warsaw, Poland

    E. Jêdryka & M. Wójcik

  3. Instituut voor Kern en-Stralingsfysika, K.U. Leuven, B-3001, Leuven, Belgium

    J. Dekoster & G. Langouche

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  1. J.P. Jay
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  2. E. Jêdryka
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  3. M. Wójcik
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  4. J. Dekoster
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  5. G. Langouche
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  6. P. Panissod
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Jay, J., Jêdryka, E., Wójcik, M. et al. On the stability of bcc Co in Co/Fe superlattices an NMR and XRD study. Z. Phys. B 101, 329–337 (1997). https://doi.org/10.1007/s002570050216

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  • DOI: https://doi.org/10.1007/s002570050216

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