Study of High-Tc Superconducting Bulk Moving With Different Speeds in Applied Magnetic Fields

摘要

The force–speed relationship of a bulk YBCO moving above a permanent magnetic guideway was studied. The experiments show that the levitation forces at the lowest position $F_{max}$ increase with the increment of descending speed and tend to approach a certain levitation force $F_{{rm S}.max}$. Calculations based on a simplified superconducting ring and flux flow model show that the force variations can be ascribed to the resistive electric field produced by flux motion. Further calculation reveals that, by increasing the descending speed, the thermo-dissipation inside the superconducting ring immediately after the descending process exponentially declines, approaching zero while the speed approaches infinity, and $F_{max}$ reaches $F_{{rm S}.max}$. Therefore, the thermo-dissipation inside the bulk YBCO can be defined as a parameter for evaluating levitation force losses. Those results might be useful in pragmatic design of high-Tc superconducting levitation devices and magnetization of type-II superconductors.