Adatom Hopping Research Articles

Surface self-diffusion on Ni(110): Temperature dependence and directional anisotropy

The surface self-diffusion coefficients, D s, on a Ni(110) crystal are measured by a mass transfer technique in [1 1 0] and [001] directions in the temperature range 773–1573 K. The surface cleanliness was checked by Auger electron spectroscopy. LEED investigations showed that the sinusoidal surface profile consisted of (110) terraces and monatomic steps. The temperature dependence of D s can be expressed by D s [1 10] = 0.009 exp( −17.5 kcal mole · RT) and D s [001] = 470 exp( −45 kcal mole · RT) at temperatures below 1150 K. Theoretical values for the activation energies of surface migration were calculated in the framework of the pairwise interaction model. Together with an estimate for the formation energy of adatoms of 16.3 kcal mole , one obtains for the activation energy of surface self-diffusion 17 and 51 kcal mole for [1 1 0] and [001] direction, respectively. At T > 1150 K the anisotropy in D s begins to vanish. Surface diffusion in [1 1 0] direction at T < 1150 K is most likely taking place by a simple adatom hopping process. Circumstantial evidence indicates that diffusion in [001] direction does not occur by a simple hopping process but by a more complex mechanism involving higher energy surface diffusion states. This isotropic process is suggested to take place for both directions at T < 1150 K.