Magnetic instability of ac multifilamentary superconductors in spatially distributed magnetic field

The theoretical approach is carried out with the combined thermal and magnetic equations which are based on the critical state model for non-ideal type-II superconductors and include controllable physical parameters. Also, the behaviour of flux jumps is studied on Nb-Ti-Zr ternary alloy wires in the

The stability behaviour of low loss Cu/CuNi/Nb-ri mixed matrix conductors in rapidly changing magnetic fields was investigated. The test conductors are supplied with a transport current and exposed to half cycle sinusoidal field pulses, typically of length 10 ms and a dB/dt value up to a few hundred

Magnetostriction loops of a hard superconductor are calculated analytically. The geometry under consideration is a thin flat superconductor in a magnetic field perpendicular to the flat face of the sample. The analytical representation of the results is given in a relationship with the magnetic flux

## Abstract A magnetostatic model consisting of a tetragonal lattice of struts of diamagnetic material, mimicking vertebral trabecular bone, was developed. The model allows estimation of the magnetic field histogram within the lattice's unit cell as a function of geometric parameters. The field was

The magnetic field dependence of ac losses due to nonlinear flux penetration into superconducting filaments, ie, nonlinearity between an applied magnetic field and a penetrated flux, has been studied experimentally for multi-filamentary superconducting wires with Nb-Ti filaments and Cu matrix. In or