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Structural and electronic properties of the mu-phase Fe-Mo compounds

Structural (lattice parameters and sublattice occupancies) and electronic (charge-density and electric field gradient) properties in a series of compounds mu-Fe_(100-x)Mo_x were studied experimentally (X-ray diffraction and Mossbauer spectroscopy) and theoretically (charge and spin self-consistent KorringaKohnRostoker Green function method). The lattice parameters a and c showed a linear increase with x while all five lattice sites were found to be populated by both alloying elements: A and B predominantly by Fe atoms whereas C and D by Mo atoms hardly depending on the composition. The population of Fe atoms on the site E was ranging between ca. 50% at x=37.5 and ca. 20% at x=44.5. Fe-site charge-density (isomer shift) and the electric field gradient (quadrupole splitting, QS) were revealed to be characteristic of the lattice site and both of them were almost x-independent. The difference in the charge-density at Fe-atoms at the sites B (the highest value) and those at the sites D (the lowest value) was estimated as equivalent to 0.18 electrons. The average charge-density increases linearly with x. The largest QS-values were those at the sites A and C, while the smallest ones at the site D.