Publications by authors named "Robert Svagera"
Strange-metal behavior has been observed in materials ranging from high-temperature superconductors to heavy fermion metals. In conventional metals, current is carried by quasiparticles; although it has been suggested that quasiparticles are absent in strange metals, direct experimental evidence is lacking. We measured shot noise to probe the granularity of the current-carrying excitations in nanowires of the heavy fermion strange metal YbRhSi.
View Article and Find Full Text PDFNano-grained CoSb was prepared by melt-spinning and subsequent spark plasma sintering. The phonon thermal conductivity of skutterudites is known to be sensitive to the kind and the amount of guest atoms. Thus, unfilled CoSb can serve as model compound to study the impact of a nanostructure on the thermoelectric properties, especially the phonon thermal conductivity.
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- Type-I clathrates are materials with very low thermal conductivity, making them suitable for thermoelectric applications.
- Incorporating cerium into these clathrates significantly boosts their thermopower, which improves their efficiency.
- This study examines how rare earth elements get integrated into type-I clathrates, focusing on the influence of available cage space and electron balance during crystal growth.
On the basis of a detailed study applying X-ray single-crystal and powder diffraction, differential scanning calorimetry, and scanning electron microscopy analysis, it was possible to resolve existing uncertainties in the Pt-rich section (≥65 atom % Pt) of the binary Pt-B phase diagram above 600 °C. The formation of a unique structure has been observed for Pt2B [X-ray single-crystal data: space group C2/m, a = 1.62717(11) nm, b = 0.
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