Effects of superconducting gap anisotropy on the flux flow resistivity in Y(Ni1-xPtx)2B2C

Abstract

The microwave complex surface impedance Zs of Y(Ni1-xPtx)2B2C was measured at 0.5 K under magnetic fields H up to 7T. In nominally pure YNi2B2C, which is a strongly anisotropic s-wave superconductor, the flux flow resistivity f calculated from Zs was twice as large as that expected from the conventional normal-state vortex core model. In Pt-doped samples where the gap anisotropy is smeared out, the enhancement of f is reduced and f approaches to the conventional behavior. These results indicate that energy dissipation in the vortex core is strongly affected by the anisotropy of the superconducting gap.

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