Electronic transport properties of intermediately coupled superconductors: PdTe2 and Cu0.04PdTe2
M. K. Hooda, C. S. Yadav

TL;DR
This study investigates the electrical, thermal, and thermoelectric properties of PdTe2 and Cu-intercalated PdTe2, revealing their intermediate superconducting coupling and detailed transport behaviors across temperature ranges.
Contribution
It provides new insights into the transport properties and electron-phonon coupling in PdTe2 and Cu0.04PdTe2, highlighting their intermediate superconducting nature.
Findings
Electrical resistivity shows Bloch-Gruneisen and Fermi liquid behavior.
Seebeck coefficient indicates competition between scattering processes.
Thermal conductivity is dominated by electronic contribution and varies linearly at low T.
Abstract
We have investigated the electrical resistivity, Seebeck coefficient and thermal conductivity of PdTe2 and 4% Cu intercalated PdTe2 compounds. Electrical resistivity for the compounds shows Bloch-Gruneisen type linear temperature (T) dependence for 100 K < T < 480 K, and Fermi liquid behavior (~ T^2) below 50 K. Seebeck coefficient data exhibit strong competition between Normal (N) and Umklapp (U) scattering processes at low T. Though our results indicate the transfer of charge carriers to PdTe2 upon Cu intercalation, it is difficult to discern any change in the Fermi surface of the compound by Nordheim-Gorter plots. The estimated Fermi energies of the compounds are quite comparable to good metals Cu, Ag and Au. The low T, thermal conductivity (k) of the compounds is strongly dominated by the electronic contribution, and exhibits a rare linear T dependence below 10 K. However, high T,…
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