Investigation of a two-dimensional dysprosium germanide on Ge(111): A medium-energy ion-scattering study including direct observation of a reversal of top-layer buckling upon adsorption of hydrogen

A two-dimensional dysprosium germanide of stoichiometry ${\mathrm{DyGe}}_{2}$ on the Ge(111) surface, with a nominal Dy coverage of one monolayer, has been investigated using medium-energy ion scattering. A quantitative structural analysis has revealed that the Dy atoms reside beneath a well-ordered Ge(111) bilayer, rotated by $180\ifmmode^\circ\else\textdegree\fi{}$ with respect to the bulk. Upon adsorption of hydrogen, the buckling of the top layer was seen to reverse with a corresponding expansion of the Dy-Ge bond length. Possible generalizations for other rare earth/semiconductor systems are discussed.