Competing contributions of superconducting and insulating states in Ag5Pb2O6/CuO composite
Danije Djurek
TL;DR
This study investigates a composite of Ag5Pb2O6 and CuO, revealing competing superconducting and insulating behaviors with potential high-temperature superconductivity up to 356 K.
Contribution
It demonstrates the coexistence of superconducting and insulating states in a composite material and explores the conditions influencing this competition.
Findings
Resistivity follows lnR~(T0/T)^1/2 dependence
Possible one-dimensional conductivity observed
Superconductivity extends up to Tc ~ 356 K
Abstract
The composite material, consisting of metallic particles Ag5Pb2O6 diluted in insulating CuO matrix, has been investigated in a narrow concentration range separating ballistic tunnel transport from hopping conductivity. The formation of intergrain conducting bridges between metallic particles has been avoided by a careful metallurgic treatment. Resistivity is indicated by temperature dependence lnR~(T0/T)^1/2, and this dependence appeals an attention for possible one dimensional conductivity which could be looked upon as a property uniquely associated with an onset of the superconductivity extending up to Tc ~ 356 K.
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Taxonomy
TopicsTheoretical and Computational Physics · Physics of Superconductivity and Magnetism · Advanced Condensed Matter Physics