Electrical and thermal transport properties of EuBa2(Cu1−xMnx)3O7−δ
Ashok RaoAnirban DasTirthankar ChakrabortyBhasker GahtoriS. K. AgarwalChandan Kumar SarkarK. SivakumarKuan‐Yi WuY. K. Kuo
Abstract
In this communication, we present the measurements of electrical resistivity (ρ), thermal conductivity (κ), thermopower (S), and specific heat (CP) on Mn doped compounds EuBa2(Cu1−xMnx)3O7−δ for 0≤x≤0.02. The transition temperature TC and the upper critical field HC2(0) in this series of compounds are found to decrease quasi-linearly as the Mn concentration increases. All the currently investigated samples show a hump in thermal conductivity below their transition temperatures. Thermopower measurements exhibit an electron-like behaviour for pure samples; however, a hole-like behaviour is seen in all the doped samples. A small jump in specific heat is observed in the pure samples. It is seen that replacing 0.5% Cu by Mn has little effect on the transition temperature, but there is a nearly twofold suppression in the CP jump for this sample. These results demonstrate that the impurities are being incorporated as a whole and not as a cluster.
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