Temperature dependent anisotropy and two-band superconductivity revealed by lower critical field in organic superconductor -(BEDT-TTF)2Cu[N(CN)2]Br

Abstract

Resistivity and magnetization have been measured at different temperatures and magnetic fields in organic superconductors -(BEDT-TTF)2Cu[N(CN)2]Br. The lower critical field and upper critical field are determined, which allow to depict a complete phase diagram. Through the comparison between the upper critical fields with magnetic field perpendicular and parallel to the conducting ac-planes, and the scaling of the in-plane resistivity with field along different directions, we found that the anisotropy is strongly temperature dependent. It is found that is quite large (above 20) near Tc, which satisfies the 2D model, but approaches a small value in the low-temperature region. The 2D-Tinkham model can also be used to fit the data at high temperatures. This is explained as a crossover from the orbital depairing mechanism in high-temperature and low-field region to the paramagnetic depairing mechanism in the high-field and low-temperature region. The temperature dependence of lower critical field Hc1 (T) shows a concave shape in wide temperature region. It is found that neither a single d-wave nor a single s-wave gap can fit the Hc1 (T), however a two-gap model containing an s-wave and a d-wave can fit the data rather well, suggesting two-band superconductivity and an unconventional pairing mechanism in this organic superconductor.