CALCULATION OF ALKALI MATEL INDUCED Cu(110)-(l×2) RECONSTRUCTED SURFACE BY LAYER DOUBLING METHED | Zendy

HU ZI-PU | Zendy; Pan Bi-Cai | Zendy; W.C. Fan | Zendy

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CALCULATION OF ALKALI MATEL INDUCED Cu(110)-(l×2) RECONSTRUCTED SURFACE BY LAYER DOUBLING METHED

Author(s) -

HU ZI-PU,

Pan Bi-Cai,

W.C. Fan

Publication year - 1990

Publication title -

acta physica sinica

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.199

H-Index - 47

ISSN - 1000-3290

DOI - 10.7498/aps.39.115

Subject(s) - alkali metal , adsorption , layer (electronics) , materials science , low energy electron diffraction , electron diffraction , diffraction , surface reconstruction , surface layer , surface (topology) , energy (signal processing) , electron , chemistry , physics , optics , nanotechnology , nuclear physics , geometry , mathematics , quantum mechanics

The layer doubling method of dynamic calculation of Low Energy Electron Diffraction is introduced. It was used to analyse the reconstruction of Cu(110)-(l×2) surface induced by adsorption of alkali metals. The result shows that missing row model with top layer spacing contracted to 1.13? is the most reliable structure.

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