Physics – Condensed Matter – Strongly Correlated Electrons
Scientific paper
2002-11-08
Physics
Condensed Matter
Strongly Correlated Electrons
LATeX file, 4 EPS figures, zipped in 1 file BiSr50.zip
Scientific paper
10.1063/1.1543911
Measurements of the electrical and thermal conductivities, thermopower and paramagnetic susceptibility have been performed on single crystal samples of Bi1/2Sr1/2MnO3 and complemented with the X-ray powder diffraction data. A pronounced hysteretic behavior, observed below the cubic-to- orthorhombic transition at Tcrit = 535 K, is related to the onset of long-range charge order at TCO = 450 K and its further evolution down to about 330 K. The diffraction data suggest that the charge ordered state is formed by Zener pairs, represented by Mn4+ dimers linked by one extra eg electron, and is possibly stabilized by cooperative Bi,Sr displacements. An extremely low thermal conductivity is observed down to the lowest temperatures, without any recovery at the anti- ferromagnetic ordering temperature TN = 150 K. Such be- havior points to a presence of strong scatterers of phonons. Their possible origin can be linked to "optical-like" oscilla- tions which are associated with fluctuating charges within the Zener pairs.
Beran Premysl
Hejtmanek Jiri
Hervieu Maryvonne
Jirak Z.
Knizek K.
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