Abstract :
Both magnetic ordering temperatures and lattice constants were observed to be a function of preparation temperature for single-phase CaCuMn6O12 CMR ceramics of the same cation, oxygen composition and crystal structure. It was found for the first time that higher preparation temperatures T prep result in a linear increase of a cubic cell parameter a , Δ a / Δ T prep ∼ 4 × 1 0 − 5 Å / ∘ C , and in a sharp decrease of magnetic ordering temperatures T crit , by about Δ T crit / Δ T prep ∼ 3 / 5 , for quenched samples. High resolution NPD experiments have shown the presence of antisite defects resulting in partial occupation of octahedral (8c) sites by Cu2+ at higher preparation temperatures as never assumed for an ideal structure. The data obtained give a new insight to the problem of functional properties reproducibility suggesting stronger requirements for the production control of CMR materials.
