Observation of jump diffusion of isolated sodium atoms on a Cu(001) surface by helium atom scattering.

The diffusion of sodium adatoms on a Cu(001) surface has been studied with quasielastic helium atom scattering. A jump mechanism was found with activation energy 51 meV, jump length 2.56 \AA{}, and jump attempt frequency ${\ensuremath{\nu}}_{0}$ 0.53 THz. The adatom vibrational frequency parallel to the surface is measured to be 1.23 THz. The data are interpreted with the aid of a realistic molecular-dynamics simulation which reveals that ${\ensuremath{\nu}}_{0}$ is governed by the rate of energy exchange between the adatoms and the substrate, and not, as transition state theory would predict, by the vibrational frequencies of the adatom.