Structural and electronic properties of (3sqrt2xsqrt2)R45º -Sn/Cu(100): Density functional theory and scanning tunneling microscopy.

J. FUHR; J.E. GAYONE; J. MARTÍNEZ BLANCO; E.G. MICHEL; HUGO ASCOLANI

PHYSICAL REVIEW B - CONDENSED MATTER AND MATERIALS PHYSICS

AMER PHYS SOC

Año: 2009 vol. 80 p. 1154101 - 1154108

0163-1829

The structural and electronic properties of the (3sqrt2xsqrt2)R45º phase of 0.5 monolayers of Sn on Cu(100) have been investigated using a combination of scanning tunneling microscopy experiments and total energy-minimization calculations. Theory and experiment support the missing-row surface-alloy structure as the ground state for this surface K.Pussi, E.AlShamaileh, E.McLoughin, A.A.Cafolla, and M.Lindroos, Surf. Sci. 549,24 (2004). The calculated electronic structure reproduces almost perfectly both the experimental scanning tunneling microscopy images and the observed electronic bands. Our results conclusively indicate that the creation of Cu vacancies in the top surface layer produces a significant reduction of the total energy. We also report a metastable (3sqrt2xsqrt2)R45° phase coexisting with the ground state at room temperature, which we attribute to a two-missing-row surface-alloy structure.