Analysis of the magnetic distribution within a high-temperature superconductor magnetic shielding cylinder by use of the finite element method

It is important to know the distribution of the magnetic field within a magnetic shielding vessel for use in the design of an effective magnetic shielding vessel. From experiments and theoretical analysis, the distribution of the magnetic fields, the magnetic flux densities B-z and B-r along the respective axial and radial directions z and r, within a high-temperature superconductor cylinder were found. Theoretical values for B-z and B-r were determined by the use of the finite element method. The experimental values were found to agree well with the theoretical values. These results were found to be important criteria in the design of an effective magnetic shielding vessel. (c) 2006 Elsevier Ltd. All rights reserved.