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Chemical trend of exchange couplings in diluted magnetic II-VI semiconductors

We have calculated the chemical trend of magnetic exchange parameters ($J_{dd}$, $N α$, and $N β$) of Zn-based II-VI semiconductors ZnA (A=O, S, Se, and Te) doped with Co or Mn. We show that a proper treatment of electron correlations by the LSDA+$U$ method leads to good agreement between experimental and theoretical values of the nearest-neighbor exchange coupling $J_{dd}$ between localized 3$d$ spins in contrast to the LSDA method. The exchange couplings between localized spins and doped electrons in the conduction band $N α$ are in good agreement with experiment as well. But the values for $N β$ (coupling to doped holes in the valence band) indicate a cross-over from weak coupling (for A=Te and Se) to strong coupling (for A=O) and a localized hole state in ZnO:Mn. That hole localization explains the apparent discrepancy between photoemission and magneto-optical data for ZnO:Mn.

preprint2009arXivOpen access
T. ChanierF. VirotR. Hayn
cond-mat.str-elcond-mat.mtrl-sci
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T. ChanierF. VirotR. Hayn

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