Oxygen Isotope Effect on the Spin State Transition in (Pr0.7Sm0.3)0.7Ca0.3CoO3

Abstract

Oxygen isotope substitution is performed in the perovskite cobalt oxide (Pr0.7Sm0.3)0.7Ca0.3CoO3 which shows a sharp spin state transition from the intermediate spin (IS) state to the low spin (LS) state at a certain temperature. The transition temperature of the spin state up-shifts with the substitution of 16O by 18O from the resistivity and magnetic susceptibility measurements. The up-shift value is 6.8 K and an oxygen isotope exponent (αS) is about -0.8. The large oxygen isotope effect indicates strong electron-phonon coupling in this material. The substitution of 16O by 18O leads to a decrease in the frequency of phonon and an increase in the effective mass of electron (m), so that the bandwidth W is decreased and the energy difference between the different spin states is increased. This is the reason why the Ts is shifted to high temperature with oxygen isotopic exchange.

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