Simultaneous valence shift of Pr and Tb ions at the spin-state transition in ((Pr1-yTby)0.7Ca0.3CoO3

Abstract

Temperature dependence of the X-ray absorption near-edge structure (XANES) spectra at the Pr L3- and Tb L3-edges was measured for the (Pr1-yTby)0.7Ca0.3CoO3 system, in which a metal-insulator (MI) and spin-state (SS) transition took place simultaneously at a critical temperature T MI. A small increase in the valence of the terbium ion was found below T MI, besides the enhancement of the praseodymium valence; the trivalent states, which are stable at room temperature, change to a 3+/4+ ionic mixture at low temperatures. In particular for the y=0.2 sample, the average valence determined at 8 K amounts to 3.03+ and 3.25+ for the Tb and Pr ion, respectively. In analogous (Pr1-yREy)0.7Ca0.3CoO3 samples (RE=Sm and Eu), in which the MI-SS transition also took place, no valence shift of the RE ion was detected in the XANES spectra at the RE ion L3-edge. The role of the substituted RE ion for the Pr-site on the MI-SS transition is discussed.