AN ADSORBATE-STABILIZED VACANCY STRUCTURE FOR CU ON W(100) - A SURFACE ALLOY

Deposition of 0.5 ML of Cu on W(100) leads to the formation of a sharp c(2 x 2) structure when the surface is annealed at 800 K. A LEED inte nsity analysis reveals that the Cu atoms are adsorbed displacively int o W sites, forming an ordered 2D surface alloy. Due to the lattice mis match between copper and tungsten, a substantial buckling of the first layer of the alloy is also observed. The clean, bulk terminated W(100 ) surface is only just stable relative to the c(2 x 2) vacancy covered W(100) surface. This relative stability of the vacancy structure expl ains the driving force behind the formation of this alloy.