Nonlinear Flux Diffusion and ac Susceptibility of Superconductors - Exact Numerical Results
Abstract
The ac response of a slab of material with electrodynamic characteristics E j+1, ≥0, is studied numerically. From the solutions of the nonlinear diffusion equation, the fundamental and higher-order components of the harmonic susceptibility are obtained. A large portion of the data for every can be scaled by a single parameter, =t1/(+2)· H0/(+2)/D, where t is the period of the ac field at the surface, H0 is its amplitude and D is the slab thickness. This is, however, only an approximate scaling property: The field penetration into a nonlinear medium is a more complex phenomenon than in the linear case. In particular, the susceptibility values are not uniquely defined by a set of only two parameters, such as and , while one parameter, i.e. t1/2/D, is sufficient to describe the electrodynamic response of a linear medium.
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