Buch ; Online: Thermal conductivity suppression in uranium-doped thorium dioxide due to phonon resonant scattering
2023
Abstract: In this work, the thermal transport properties of thorium dioxide (ThO$_2$, thoria) with low levels of substitutional uranium (U) doping are explored. We observe strong indications of resonant phonon scattering, an interaction between phonons and ... ...
| Abstract | In this work, the thermal transport properties of thorium dioxide (ThO$_2$, thoria) with low levels of substitutional uranium (U) doping are explored. We observe strong indications of resonant phonon scattering, an interaction between phonons and electronic degrees of freedom, induced by this doping in addition to common ``impurity'' scattering due to mass and interatomic force constant differences. Uranium doping levels of 6\%, 9\%, and 16\% were studied in a single hydrothermally synthesized U-doped thoria crystal with spatially-varying U doping levels. Within this crystal, isoconcentration regions with relatively uniform doping were located for local thermal conductivity measurements using a thermoreflectance technique. The measured thermal conductivity profiles in the temperature range of 77--300~K are compared to predictions of an analytical Klemens-Callaway thermal conductivity model to identify impacts from different phonon scattering mechanisms. Highly suppressed thermal conductivity at cryogenic temperatures at these doping levels suggests that phonon resonant scattering plays an important role in thermal conductivity reduction in U-doped thoria. Comment: 7 pages, 4 figures |
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| Schlagwörter | Condensed Matter - Materials Science ; Condensed Matter - Strongly Correlated Electrons |
| Erscheinungsdatum | 2023-03-02 |
| Erscheinungsland | us |
| Dokumenttyp | Buch ; Online |
| Datenquelle | BASE - Bielefeld Academic Search Engine (Lebenswissenschaftliche Auswahl) |
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