Anomalous lattice specific heat and rattling phonon modes in quadruple perovskites
Abstract
Experimental data on the specific heat Cp of quadruple perovskites ACu3Fe2Re2O12 (A = Mn, Cu, La, Ce, Dy) are presented, demonstrating an anomalous concave-down Cp/T vs. T2 curve and a bell-shaped feature in β(T) = (Cp - γ T)/T3 plotted against T on a logarithmic scale. This feature is most pronounced for A = Cu and Mn. These findings can be explained by the rattling phenomenon, previously identified in other systems such as filled skutterudites and β-pyrochlores. Using first-principles DFT+U calculations, the presence of a rattling mode in A = Mn system is directly confirmed. A qualitative interpretation of the rattling mechanism in terms of a pseudo-Jahn-Teller effect is proposed.
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