Scaling of Hall Resistivity in the Mixed State of MgB2 Films

Abstract

The longitudinal resistivity (rhoxx) and transverse resistivity (rhoxy) of MgB2 thin films in the mixed state were studied in detail. We found that the temperature dependencies of rhoxx and xy at a fixed magnetic field (H) satisfy the scaling law of xy=Axxβ, where the exponent beta varies around 2.0 for different fields. In the low field region (below 1T), beta maintains a constant value of 2.0 due to the weak pinning strength of the vortices, mainly from the superfluid of the pi band. When H>1T, beta drops abruptly to its lowest value at about 2T because of the proliferation of quasiparticles from the pi-band and, hence, the motion of the vortices from the superfluid of the sigma-band dominates the dissipation. As the field is increased further, the vortex pinning strength is weakened and beta increases monotonically towards 2.0 at a high field. All the results presented here are in good agreement with the expectation of the vortex physics of a multi-band superconductor.