Browsing by Author "Kiejna, A."
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- Energetics of Sr adatom interactions on the Mo(112) surface
School of Science | A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä(2004) Kiejna, A.; Nieminen, Risto M.First-principles methods are used to investigate the formation and structure of the ordered phases of Sr atoms adsorbed on the furrowed Mo(112) surface. The energetics of various commensurate and incommensurate adatom structures providing information on lateral interactions between adatoms is determined for coverages 0.11⩽Θ⩽1 monolayer. It is found that the binding energy of Sr atoms decreases with increasing coverage. The experimentally observed p(8×1) and p(5×1) adatom chains are found to belong to the most favored structures for Θ<0.5. The energetic difference between these two structures amounts to 20meV. The experimental work function variation with Sr adatom coverage is very well reproduced. The energy barriers for Sr diffusion along the atomic troughs are calculated and discussed. - First-principles calculation of Li adatom structures on the Mo(112) surface
School of Science | A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä(2002) Kiejna, A.; Nieminen, Risto M.The formation and structure of the ordered phases of Li atoms adsorbed on the Mo(112) surface are investigated by performing first-principles density-functional calculations. Large inward relaxation for the first atomic interlayer distance of the clean Mo(112) surface is found. The vertical relaxations of the substrate are only little influenced by the adsorbed Li atoms. The magnitude of lateral shifts of atoms along the atomic rows is found to be small and in line with measured values. The energetics of chain structures of Li adatoms for coverages 0.125<~Θ<~1 monolayer is determined and the p(4×1) and p(2×1) adatom structures are found to be the most favored ones in agreement with experiment. The binding energy of Li atoms decreases with increasing coverage. The calculated work function changes with Li adatom coverage are in good agreement with experiment. The energy barriers for adatom diffusion are determined and the energetics of lateral interactions between adatoms is discussed.