Vortex dynamic, pinning and irreversibility field investigation in EuRbFe4As4 superconductor

Abstract

We performed systematic AC susceptibility and magnetic moment measurements to investigate the vortex dynamics and pinning in the EuRbFe4As4 single crystal as a function of temperature, frequency, and DC magnetic field. The vortex solid-liquid line was determined and it fits well with H(Tp)=H0(1-tp)β using β=1.74-1.91, for H ab. It indicates a rather high pinning strength of the vortex system. The activation energy U0 was determined from thermally activated flux creep theory and reached 6700 K at low fields, suggesting strong vortex pinning. A field dependence of U0(H ab) Ha with a=0.47 suggests thermally activated plastic pinning or caused by planar defects. Magnetic moment measurements also confirmed strong pinning in a EuRbFe4As4 superconductor and the superconducting response gives the main contribution to the M(H) hysteresis. Additionally, we found evidence of long-range magnetic interactions in Eu2+ sublattice and the FM-like nature of Eu2+ atoms ordering.