A first-principles study of MgB2 (0001) surfaces
Abstract
We report self-consistent ab initio calculations of structural and electronic properties for the B- and Mg-terminated MgB2 (0001) surfaces. We employ ultra-soft pseudopotentials and plane wave basis sets within the generalized gradient approximation. The surface relaxations are found to be small for both B- and Mg-terminated surfaces. For the B-terminated surface, both B σ and π surface bands appear, while only one B π surface band exists near the Fermi level for the Mg-terminated surface. The superconductivity of the MgB2 surfaces is discussed. The work function is predicted to be 5.95 and 4.25 eV for the B- and Mg-terminated surfaces respectively. The simulated scanning tunneling microscopy images of the surfaces are not sensitive to the sign and value of the bias voltages, but depend strongly on the tip-sample distance. An image reversal is predicted for the Mg-terminated surface.
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