Magnetic Ordering and Superconductivity in the RE2Ir3Ge5 (RE = Y, La-Tm, Lu) System
Abstract
We find that the compounds for RE = Y, La-Dy, crystallize in the tetragonal Ibam (U2Co3Si5 type) structure whereas the compounds for RE = Er-Lu, crystallize in a new orthorhombic structure with a space group Pmmn. Samples of Ho2Ir3Ge5 were always found to be multiphase. The compounds for RE = Y to Dy which adopt the Ibam type structure show a metallic resistivity whereas the compounds with RE = Er, Tm and Lu show an anomalous behavior in the resistivity with a semiconducting increase in as we go down in temperature from 300K. Interestingly we had earlier found a positive temperature coefficient of resistivity for the Yb sample in the same temperature range. We will compare this behavior with similar observations in the compounds RE3Ru4Ge13 and REBiPt. La2Ir3Ge5 and Y2Ir3Ge5 show bulk superconductivity below 1.8K and 2.5K respectively. Our results confirm that Ce2Ir3Ge5 shows a Kondo lattice behavior and undergoes antiferromagnetic ordering below 8.5K. Most of the other compounds containing magnetic rare-earth elements undergo a single antiferromagnetic transition at low temperatures (T≤12K) while Gd2Ir3Ge5, Dy2Ir3Ge5 and Nd2Ir3Ge5 show multiple transitions. The TN's for most of the compounds roughly scale with the de Gennes factor. which suggests that the chief mechanism of interaction leading to the magnetic ordering of the magnetic moments may be the RKKY interaction.
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