STRUCTURE OF NI OVERLAYERS ON BCC FE(100)

The structure of Ni layers epitaxially grown on bce Fe-{100} was studi ed by various techniques. After the growth of up to 3 monolayers (ML), Ni was found to be in a bcc phase with the bce Ni{100}parallel to bce Fe{100} epitaxial relationship and with the in-plane lattice paramete r close to that of the underlying Fe. When the Ni layer thickness exce eded 3 ML, a structural transition was observed. In the literature it has been reported that the intermediate Ni phase formed upon the trans ition has an unknown structure which gradually changes to a final fee Ni{110} structure after the growth of about 200 ML and subsequent anne aling. Here we find that this intermediate phase is in fact also fee N i{110} with a structure consisting of small domains. It is concluded t hat the small domain size gives rise to reflection high-energy electro n diffraction patterns which can be misinterpreted as being due to a d ifferent structure. The intermediate as well as the final Ni structure contains four orientations of fee Ni domains with the Ni{110} planes parallel to the bcc Fe{100} surface and the Ni<211> crystallographic d irections along Fe<110> axes. The origin and consequences of this epit axial relationship are discussed. [S0163-1829(98)08838-9].