Valence instability of cerium under pressure in the Kondo-like perovskite La0.1Ce0.4Sr0.5MnO3

Abstract

Effect of hydrostatic pressure and magnetic field on electrical resistance of the Kondo-like perovskite manganese oxide, La0.1Ce0.4Sr0.5MnO3 with a ferrimagnetic ground state, have been investigated up to 2.1 GPa and 9 T. In this compound, the Mn-moments undergo double exchange mediated ferromagnetic ordering at T C 280 K and there is a resistance maximum, T max at about 130 K which is correlated with an antiferromagnetic ordering of cerium with respect to the Mn-sublattice moments. Under pressure, the T max shifts to lower temperature at a rate of dTmax/dP = -162 K/GPa and disappears at a critical pressure P c 0.9 GPa. Further, the coefficient, m of -logT term due to Kondo scattering decreases linearly with increase of pressure showing an inflection point in the vicinity of P c. These results suggest that cerium undergoes a transition from Ce3+ state to Ce4+/Ce3+ mixed valence state under pressure. In contrast to pressure effect, the applied magnetic field shifts T max to higher temperature presumably due to enhanced ferromagnetic Mn moments.

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