Publikationsrepositorium - Helmholtz-Zentrum Dresden-Rossendorf

The present work reports about experimental procedures to correct significant deviations of magnetization data, caused by magnetic relaxation, due to small field cycling by sample transport in the inhomogeneous applied magnetic field of commercial magnetometers. The extensively used method for measuring the magnetic irreversibility by first cooling the sample in zero field, switching on a constant applied magnetic field and measuring the magnetization M(T) while slowly warming the sample, and subsequently measuring M(T) while slowly cooling it back in the same field, is very sensitive even to small displacement of the magnetization curve. In our melt-processed YBaCuO superconducting sample we observed displacements of the irreversibility limit up to 7K in high fields. Such displacements are detected only on confronting the magnetic irreversibility limit with other measurements, like for instance zero resistance, in which the sample remains fixed and so is not affected by such relaxation. We measured the magnetic irreversibility, T_irr(H), using a vibrating sample magnetometer (VSM) from Quantum Design. The zero resistance data, T_c0(H), were obtained using a PPMS from Quantum Design. On confronting our irreversibility lines with those of zero resistance, we observed that the T_c0(H) data fell several degrees K above the T_irr(H) data, which obviously contradicts the well known properties of superconductivity. In order to get consistent T_irr(H) data in the H–T plane, it was necessary to do a lot of additional measurements as a function of the amplitude of the sample transport and extrapolate the T_irr(H) data for each applied field to zero amplitude.