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Schlagwörter:
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Zusammenfassung:
Magnetic and crystallographic properties of the mineral langite
Cu-4(OH)(6)SO4 center dot 2H(2)Oare reported. Thermodynamic measurements
combined with a microscopic analysis, based on density-functional
bandstructure calculations, identify a quasi-two-dimensional (2D),
partially frustrated spin-1/2 lattice resulting in the low Neel
temperature of T-N similar or equal to 5.7 K. This spin lattice splits
into two parts with predominant ferro-and antiferromagnetic (AFM)
exchange couplings, respectively. The former, ferromagnetic (FM) part is
prone to the long-range magnetic order and saturates around 12 T, where
the magnetization reaches 0.5 mu(B)/Cu. The latter, AFM part features a
spin-ladder geometry and should evade long-range magnetic order. This
representation is corroborated by the peculiar temperature dependence of
the specific heat in the magnetically ordered state. We argue that this
separation into ferro-and antiferromagnetic sublattices is generic for
quantum magnets in Cu2+ oxides that combine different flavors of
structural chains built of CuO4 units. To start from reliable structural
data, the crystal structure of langite in the 100-280 K temperature
range has been determined by single-crystal x-ray diffraction, and the
hydrogen positions were refined computationally.
