J. Pirov

Structure, superconducting and magnetotransport properties of Ru1−xSnxSr2Gd1.4Ce0.6Cu2Oy (0≤x≤0.1)

Samples with nominal compositions Ru1−xSnxSr2Gd1.4Ce0.6Cu2Oy (0≤x≤0.1) were synthesized and their structure, superconducting and magnetotransport properties were investigated. It was shown that the Sn-doping enhances the crystal growth in Ru-1222. A maximum in the dependences of the lattice parameters and Tc on the dopant content x was observed. Small doping levels significantly increase the Tc of the Ru-1222 samples, prepared at the same conditions—from 20 K for the undoped sample to 35 K for the x = 0.02 and 0.03 ones. It was found that the Sn-doping enhances the upper critical field Hc2(0), extrapolated to T = 0, and the weak link behavior at the expense of the intragranular superconductivity in Ru-1222. The observed phenomena are discussed.

Superconductivity and critical fields in undoped and Sn-doped MoSr2YCu2O8−δ

The upper critical field Hc2(T) of sintered pellets of the recently discovered MgB_2 superconductor was investigated in magnetic fields up to 16 T. The upper critical field of the major fraction of the investigated sample was determined from ac susceptibility and resistance data and was found to increase up to Hc2(0) = 13 T at T = 0 corresponding to a coherence length of 5.0 nm. A small fraction of the sample exhibits higher upper critical fields which were measured both resistively and by dc magnetization measurements. The temperature dependence of the upper critical field, Hc2(T), shows a positive curvature near Tc and at intermediate temperatures. This positive curvature of Hc2(T) is similar to that found for the borocarbides YNi_2B_2C and LuNi_2B_2C indicating that MgB_2 is in the clean limit.

Synthesis and Phase Composition of FeSr2YCu2O z

The phase composition of the new superconductor FeSr2YCu2Oz prepared by a solid state reaction at ambient pressure was investigated. The presence of a tetragonal 123, orthorhombic 123, or an intergrowth of 123/1212 phases was established in dependence of the synthesis temperature and atmosphere. The temperature dependence of the susceptibility has a paramagnetic behavior. Diamagnetic effects were observed at 40 and 9 K in the samples prepared without a reducing annealing process. A magnetoresistive effect of about 6% was observed at 5 K.