Einstein modes in the phonon density of states of the single-filled skutterudite Yb0.2 Co4 Sb12

I. K. Dimitrov, M. E. Manley, S. M. Shapiro, J. Yang, W. Zhang, L. D. Chen, Q. Jie, G. Ehlers, A. Podlesnyak, J. Camacho, Qiang Li

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82 Scopus citations

Abstract

Measurements of the phonon density of states by inelastic neutron time-of-flight scattering and specific-heat measurements along with first-principles calculations, provide compelling evidence for the existence of an Einstein oscillator (rattler) at ωE1 ≈ 5.0 meV in the filled skutterudite Yb0.2 Co4 Sb12. Multiple dispersionless modes in the measured density of states of Yb0.2 Co4 Sb12 at intermediate transfer energies (14≤ω≤20 meV) are exhibited in both the experimental and theoretical density of states of the Yb-filled specimen. A peak at 12.4 meV is shown to coincide with a second Einstein mode at ωE2 ≈12.8 meV obtained from heat-capacity data. The local modes at intermediate transfer energies are attributed to altered properties of the host CoSb3 cage as a result of Yb filling. It is suggested that these modes are owed to a complementary mechanism for the scattering of heat-carrying phonons in addition to the mode observed at ωE1 ≈5.0 meV. Our observations offer a plausible explanation for the significantly higher dimensionless figures of merit of filled skutterudites, compared to their parent compounds.

Original languageEnglish
Article number174301
JournalPhysical Review B - Condensed Matter and Materials Physics
Volume82
Issue number17
DOIs
StatePublished - Nov 10 2010
Externally publishedYes

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