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Adatom capture by arrays of two-dimensional Ag islands on Ag(100)

Journal Article · · Physical Review, B: Condensed Matter
 [1]; ; ;  [2];  [3]
  1. Sandia National Laboratories, Livermore, California 94550 (United States)
  2. Department of Chemistry and Ames Laboratory, Iowa State University, Ames, Iowa 50011 (United States)
  3. Department of Mathematics and Ames Laboratory, Iowa State University, Ames, Iowa 50011 (United States)
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We examine the capture of diffusing Ag adatoms by arrays of two-dimensional Ag islands subsequent to deposition on Ag(100) at room temperature. This is achieved by a combination of scanning tunneling microscopy experiments, kinetic Monte Carlo simulations, and diffusion equation analyses. The dependence of the capture rates on Ag-island size is shown to reflect larger island-free regions surrounding the larger islands, i.e., a strong correlation between island sizes and separations. This feature, and the influence of the local environment of the islands on capture, are elucidated by introducing suitable tessellations of the surface into {open_quotes}capture zones{close_quotes} for each island. We show that a Voronoi-type tessellation based on the distance from the island edges accurately reflects adatom capture. However, a tessellation exactly describing adatom capture is only obtained from a solution of the steady-state equation describing adatom deposition, diffusion, and capture by an array of islands distributed as in experiment. The stochastic nature of adatom capture is also quantified by analysis of the dependence on the deposition location of the probability for diffusing adatoms to be captured by a specific island. The experimental island size dependence of adatom capture is found to be entirely consistent with that obtained from a {open_quotes}canonical{close_quotes} model for the irreversible nucleation and growth of square islands. {copyright} {ital 1999} {ital The American Physical Society}
OSTI ID:
295552
Journal Information:
Physical Review, B: Condensed Matter, Journal Name: Physical Review, B: Condensed Matter Journal Issue: 4 Vol. 59; ISSN 0163-1829; ISSN PRBMDO
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
ADSORPTION
DIFFUSION
GROWTH
MONTE CARLO METHOD
PHYSICAL VAPOR DEPOSITION
SILVER
SIMULATION
STOCHASTIC PROCESSES
SURFACES
THIN FILMS