Journal ArticleDOI
Thermal conductivity, electrical resistivity, and thermoelectric power of Pb from 260 to 550 K
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In this article, the thermal and electrical conductivities and thermoelectric power of Pb from 260 to 550 K were compared with literature values and it was shown that there are no anomalous purity effects in the thermal conductivity at high temperatures and that some of the recently recommended values for this parameter may be some 2% too high.Abstract:
New data are given for the thermal and electrical conductivities and thermoelectric power of Pb from 260 to 550 K. Comparison of these data with literature values suggests that, contrary to some reports, there are no anomalous purity effects in the thermal conductivity at high temperatures and that some of the recently recommended values for this parameter may be some 2% too high.read more
Citations
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EPW: Electron-phonon coupling, transport and superconducting properties using maximally localized Wannier functions
TL;DR: The EPW (E lectron-P honon coupling using Wannier functions) as discussed by the authors software is a Fortran-90 code that uses density-functional perturbation theory and maximally localized WANier functions for computing electron-phonon couplings and related properties in solids accurately and efficiently.
Journal ArticleDOI
Thermophysical properties of some key solids: An update
G. K. White,M. L. Minges +1 more
TL;DR: The CODATA Bulletin this article published a report of its Task Group on Thermophysical Properties of Solids which analyzed available data on, and gave recommended values for, the heat capacity of Cu, Fe, W, and Al2O3.
Journal ArticleDOI
Thermal conductivity of metals and alloys
P. G. Klemens,R. K. Williams +1 more
TL;DR: In this article, the theory of thermal conductivity of metals and alloys is reviewed, and deviations from the Sommerfeld value of the Lorentz ratio are discussed at high temperature due to incomplete degeneracy of the electron gas (Fermi smearing), at low temperatures due to the inelastic nature of electron-phonon interactions and to the electron-electron interactions.
Journal ArticleDOI
The absolute scale of thermoelectricity
TL;DR: The absolute thermoelectric power of lead has been determined by direct measurement of its Thomson heat from 10 to 350 K as discussed by the authors, and the scale established by Christian, Jan, Pearson and Templeton (1958) is found to be in error above 20 K by as much as 0·3μV/K.
Journal ArticleDOI
Phonon limited electronic transport in Pb
TL;DR: A fully ab initio based scheme to compute electronic transport properties, i.e. the electrical conductivity σ and thermopower S, in the presence of electron-phonon interaction, and obtains a state-dependent τ and shows its necessity to reproduce the increased thermopOWER for temperatures below the Debye temperature.
References
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Journal ArticleDOI
Absolute Seebeck coefficient of platinum from 80 to 340 K and the thermal and electrical conductivities of lead from 80 to 400 K
J. P. Moore,R. S. Graves +1 more
TL;DR: The absolute Seebeck coefficient of platinum was determined from 80 to 340 K by direct comparsion to lead as discussed by the authors, which was within 1% of the Sommerfeld value of 2.443×10−8 (V/K)2 from 1.0 to 5.0 ΘD.
Journal ArticleDOI
Thermo-Electricity at Low Temperatures. VI. A Redetermination of the Absolute Scale of Thermo-Electric Power of Lead
TL;DR: In this article, the absolute thermo-electric power of zone-purified lead up to 18°K was determined by direct measurements against the superconductor Nb 3 Sn.
Journal ArticleDOI
Precise Measurement of Thermal Conductivity at High Temperatures (100–1200 K)
M J Laubitz,D L McElroy +1 more
TL;DR: In this article, a detailed analysis of the results obtained by eight different systems in three laboratories on ten metals: Cu, Ag, Au, Pd, Pt, W, Cr, Armco Iron, and the alloys Nb-10 W and Inconel 702.
Journal ArticleDOI
Transport properties of pure metals at high temperatures. II. Silver and gold
TL;DR: In this paper, the high-temperature transport properties of silver and gold have been determined and the measurements extend from 300 to 1100 °K for silver, and from 300-to 1200°K for gold.
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