Quantum interference of electrons in Nb5-δTe4 single crystals

Abstract

The compound Nb5-δTe4 (δ=0.23) with quasi-one-dimensional crystal structure undergoes a transition to superconductivity at Tc=0.6--0.9 K. Its electronic transport properties in the normal state are studied in the temperature range 1.3--270 K and in magnetic fields up to 11 T. The temperature variation of the resistivity is weak (<2%) in the investigated temperature range. Nonmonotonic behavior of the resistivity is observed which is characterized by two local maxima at T2 K and 30 K. The temperature dependence of the resistivity is interpreted as an interplay of weak localization, weak antilocalization, and electron-electron interaction effects in the diffusion and the Cooper channel. The temperature dependence of the dephasing time τφ extracted from the magnetoresistance data is determined by the electron-phonon interaction. The saturation of τφ in the low-temperature limit correlates with Tc of the individual crystal and is ascribed to the scattering on magnetic impurities.

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