The growth and structure of an ordered ${\mathrm{GdFe}}_2$ surface alloy deposited on Mo(110) has been studied using in situ surface x-ray diffraction. Growth curves and reflectivity scans of varying ratios of Gd to Fe show how the two species intermix prior to alloy formation. After annealing to form the ordered surface alloy, in-plane x-ray diffraction data indicate that the Fe atoms are laterally displaced along the [001] or $\left[00\overline{1}\right]$ direction by $0.16\pm 0.02$ Å from the long bridge site positions. Out-of-plane crystal truncation rod analysis reveals that the Gd atoms lie $3.40\pm 0.09$ Å above the Mo(110) bridge site, an expansion of 22% relative to the expected hard sphere distance. This is significantly larger than observed in previous studies of the growth of pure Gd on Mo(110). Simple geometric changes are not able to account fully for this expansion and we propose that hydrogen incorporation during alloy formation may also contribute.

• Received 18 May 2016

DOI:https://doi.org/10.1103/PhysRevB.94.075419

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Published by the American Physical Society