First-Principles calculation of atomic hydrogen adsorption on Be(10\=10) thin films
Abstract
We present a first-principles study of the atomic hydrogen adsorption onto the Be(10\=10) thin film. There are two types of Be(10\=10) surfaces according to the interlayer spacing between the surface and its nearest-neighbor layer. We show that the H adsorption features on these two kinds of surfaces are remarkably different. The work function, averaged electrostatic potential, and the local charge density consistently show that the charge is transferred from H to Be for L-type (see the text below) surfaces, while the transfer process is inverted for S-type surfaces.
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