Relating Surface Structure and Growth Mode of γ′Fe4N

Boerma, D. O.; Grachev, S. Y.; Borsa, D. M.; Miranda, R.; Gallego, J. M.

Relating Surface Structure and Growth Mode of γ′Fe4N

D. O. Boerma, S. Y. Grachev, D. M. Borsa, R. Miranda and J. M. Gallego
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D. O. Boerma: NVSF, Materials Science Centre, Nijenborgh 4, 9737 AG, University of Groningen, The Netherlands;
S. Y. Grachev: NVSF, Materials Science Centre, Nijenborgh 4, 9737 AG, University of Groningen, The Netherlands
D. M. Borsa: NVSF, Materials Science Centre, Nijenborgh 4, 9737 AG, University of Groningen, The Netherlands
R. Miranda: Universidad Autonoma de Madrid, Cantoblanco 28049, Madrid, Spain
J. M. Gallego: Instituto de Ciencia de Materiales de Madrid, CSIC, Cantoblanco, 28049, Madrid, Spain

Surface Review and Letters (SRL), 2003, vol. 10, issue 02n03, 405-411

Abstract: We have grown thin layers of γ′Fe4N on Cu(100) substrates by molecular beam epitaxy in a flow of atomic nitrogen, delivered by a radio-frequency (RF) plasma source. This nitride phase is a ferromagnetic metallic conductor and has interesting properties for device applications. In addition it has an intriguing growth mechanism. In earlier work we found that pure crystalline layers can be grown at substrate temperatures higher than 250°C, with excess nitrogen and in the presence of hydrogen.1To gain insight into the growth mechanism, we studied the structure and composition with scanning tunneling microscopy (STM), Auger electron spectroscopy (AES), low-energy electron diffraction (LEED) and X-ray diffraction (XRD). This was done for a coverage range of Fe4N on Cu(100) between 0.5 and 30 monolayers (ML) equivalent of Fe, deposited at 400°C, or at 300°C in one case. Here a preliminary account of this study is presented. We found that at sub-ML coverage, first "depressed" (with respect to the Cu surface) islands of Fe–N are formed. Then, on top of these islands a second layer is growing. Subsequently the space between the islands is filled up by a Fe–N layer growing directly on Cu. This gives rise to a smooth surface with patches differing in height by only 0.5 Å. The following layers grow by step-flow growth. The smooth terraces still show patches with a 0.5 Å height difference. The phase is γ′Fe4N with a distorted (p4g-like) structure as observed with LEED and STM, where ap(2 × 2)symmetry is seen. Thec(2 × 2)symmetry expected for γ′Fe4N is observed after growing 30 ML or more. A model for the growth mechanism based on our observations is proposed.

Keywords: Fe nitrides; surface structure; growth mechanism; magnetic layers (search for similar items in EconPapers)
Date: 2003
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DOI: 10.1142/S0218625X03005116

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