ON THE ORIGIN OF ITINERANT-ELECTRON BEHAVIOR AND LONG-RANGE FERROMAGNETIC ORDER IN LA1-XSRXCOO3

The itinerant electron ferromagnetism in La1-xSrCoO3 (0.1 less-than-or -equal-to x less-than-or-equal-to 0.5) has been reinvestigated. AC mag netic susceptibility studies on these systems have been carried out fo r the first time. The nature of the susceptibility indicates the freez ing of superparamagnetic clusters at low values of x (< 0.3) and long- range ferromagnetic order at higher values of x (greater-than-or-equal -to 0.3). Electrical resistivity studies show that itinerant electron behaviour with a positive temperature coefficient of resistance at low temperatures is obtained for x greater-than-or-equal-to 0.2. Metalliz ation and long-range ferromagnetic order thus seems to be associated w ith different origins. Chemical systematics obtained from the changes in lattice parameters show that the expansion of LaCoO3 on the substit ution of La by Sr stabilizes the paramagnetic states of Co ions which are in predominantly diamagnetic low-spin state in LaCoO3. The core S = 1 spins of trivalant Co seems to be coupled ferromagnetically by the itinerant electron in a manner similar to the Zener double-exchange m echanism.