Publications

Results 101–108 of 108
Skip to search filters

Effects of elastic anisotropy on the periodicity and orientation of striped stress domain patterns at solid surfaces

Proposed for publication in Physical Review B.

Leonard, Francois L.; Bartelt, Norman C.; Kellogg, Gary L.

The length scale of stress domain patterns formed at solid surfaces is usually calculated using isotropic elasticity theory. Because this length depends exponentially on elastic constants; deviations between isotropic and anisotropic elasticity can lead to large errors. Another inaccuracy of isotropic elasticity theory is that it neglects the dependence of elastic relaxations on stripe orientation. To remove these inaccuracies; we calculate the energy of striped domain patterns using anisotropic elasticity theory for an extensive set of surfaces encountered in experimental studies of self-assembly. We present experimental and theoretical evidence that elastic anisotropy is large enough to determine the stripe orientation when Pb is deposited on Cu(111). Our analytical and numerical results should be useful for analysis of a broad range of experimental systems.

More Details

Relationship between domain boundary free energy and the temperature dependence of stress-domain patterns of Pb on Cu(111)

Proposed for publication in Physical Review B.

Bartelt, Norman C.; Feibelman, Peter J.; Leonard, Francois L.; Kellogg, Gary L.

Pb deposition on Cu(111) causes the surface to self-assemble into periodically arranged domains of a Pb-rich phase and a Pb-poor phase. Using low-energy electron microscopy (LEEM) we provide evidence that the observed temperature-dependent periodicity of these self-assembled domain patterns is the result of changing domain-boundary free energy. We determine the free energy of boundaries at different temperatures from a capillary wave analysis of the thermal fluctuations of the boundaries and find that it varies from 22 meV/nm at 600 K to 8 meV/nm at 650 K. Combining this result with previous measurements of the surface stress difference between the two phases we find that the theory of surface-stress-induced domain formation can quantitatively account for the observed periodicities.

More Details

Surface diffusion-limited island decay on Rh(001)

Proposed for publication in Surface Science.

Bartelt, Norman C.; Kellogg, Gary L.

We use low-energy electron microscopy to study the mechanisms of thermal smoothing on Rh(001) surfaces at high temperature. By examining the change of areas of two-dimensional islands as a function of time and temperature, we find that smoothing from 1210 K to 1450 K is limited by the rate of surface diffusion on terraces and not by bulk vacancy diffusion as observed in other systems in the same temperature range. However, the activation energy we measure for island decay is inconsistent with previous measurements and calculations of the activation energy of surface diffusion and the adatom formation energy. This inconsistency combined with an unexpectedly large activation entropy suggests a surface transport mechanism other than simple hopping of adatoms across the surface.

More Details

Thermal motion and energetics of self-assembled domain structures: Pb on Cu(111)

Physical Review Letters

Van Gastel, R.; Plass, R.; Bartelt, Norman C.; Kellogg, Gary L.

The energetics and thermal motion of the self-assembled domain structures of lead on copper were discussed. It was found that the self-assembled patterns arose from a temperature-independent surface stress difference of approximately 1.2 N/m. The domain patterns evolved in a manner consistent with models, when the lead coverage was increased.

More Details

Diffusion kinetics in the Pd/Cu(001) surface alloy

Physical Review Letters

Grant, M.L.; Swartzentruber, Brian S.; Bartelt, Norman C.; Hannon, J.B.

Diffusion of Pd in the Pd/Cu(100) surface alloy was studied as a function of temperature using atom tracking scanning tunneling microscopy. It was shown that Pd diffused by a vacany-exchange mechanism, by following the motion of individual Pd atom incorporated in the surface. Activation energy was measured for diffusion of incorporated Pd atom and was found to be in agreement with ab intio calculated energy.

More Details
Results 101–108 of 108
Results 101–108 of 108