Physica C: Superconductivity 260, 273 (1996)
A. Nittke, P. Esquinazi, W. Widder, H.F. Braun
Abstract
The heat release dQ / dt has been measured in high temperature superconductors during and after a change of the external magnetic field µ0 Ha < 0.5 T applied parallel to the c-axis at 0.1 K < T < 0.45 K. Two Y123 and one Dy123 twinned single crystals were investigated. An analysis of the heat release based on the Bean model and on a model for thin superconductors in perpendicular geometry recently proposed by Brandt et al. has been carried out. During field sweep we measured dQ/dt ~ Ha2 dHa/dt. This dependence can be understood within the Bean model for longitudinal geometry. The critical current densities obtained with this method are in good agreement with those from magnetization measurements. We also present measurements, and a first quantitative analysis, of dissipation due to the time relaxation of the flux line lattice after a field sweep. For the heat release a t-1 dependence has been found which corresponds to a logarithmic time dependence of the magnetization. The normalized relaxation rate we obtained is in agreement with literature values.
