Abstract
Using the extended Huckel molecular orbital method in connection with the tight binding model, we have studied electronic structure and related properties of superconducting YBA 2Cu 3O 7−m crystals in which O-atoms in regular sites were selectively replaced with S atoms. The calculations are based on the crystal structure of YBaCuO obtained by Beno et al.. We use atomic coordinates that refer to the unrelaxed YBaCuO system. In analogy ot the isomerism problem with molecules we discuss all possible combinations of S-substitutions in O-sites with one, two and four S atoms. The calculations are carried out within charged clusters model for the analogues of YBa-copperoxide and of the YBa-free copperoxide. Our results suggest that the electronic structure of the symmetrically S-substituted or S-added compound is closer to that of the oxygen-deficient superconducting compound than that obtained from unsymmetrical subctitution. This applies in particular if O is replaced within an O(1) site. Symmetrical substitution in the CuO 2 layers give rise to large variations in the electronic structure of YBa 2Cu 3O 7. This suggests that superconductivity is very sensitive to the oxygen conetent of the CuO 2 layers.
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