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Dynamical barrier for flux penetration in a superconducting film in the flux flow state

The penetration of transverse magnetic flux into a thin superconducting square film in the flux flow state is considered by numerical simulation. Due to the film self-field, the governing equations are nonlinear, and in combination with the finite viscosity of the moving vortices, this sets up a dynamical barrier for flux penetration into the sample. The corresponding magnetization loop is hysteric, with the peak in magnetization shifted from the zero position. The magnetic field in increasing applied field is found to form a well-defined front of propagation. Numerical estimates shows that the dynamical barrier should be measurable on films with low volume pinning.

preprint2013arXivOpen access
J. I. VestgardenY. M. GalperinT. H. Johansen
cond-mat.supr-con
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J. I. VestgardenY. M. GalperinT. H. Johansen

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