Sweep rate dependence of magnetic hysteresis loops and peak effect in high-T-c superconductors

The origin of the peak effect in QMG-processed YBCO was investigated using the sweep rate dependence of magnetic hysteresis loops. A numerical analysi s of magnetic hysteresis loops demonstrated that electric field E versus cu rrent density J characteristics can be accurately derived from the sweep ra te dependence using the Mawatari method rather than the conventional Bean o ne. The pinning potential energy can be obtained from the slope of the log E versus log J plot accurately. By analysing the experimental data with the peak effect using the Mawatari method, it was found that the pinning poten tial energy and the critical current density have the peak values at differ ent magnetic fields. This anomalous phenomenon incidental to the peak effec t can be explained by the Klein model which is based on the concept of the field-induced flux pinning.