Weak superconducting fluctuations and small anisotropy of the upper critical fields in an Fe1.05Te0.85Se0.15 single crystal

Abstract

We have investigated the temperature dependence of the resistive upper critical fields (μ0H c2(T)) for an Fe1.05Te0.85Se0.15 single crystal, which exhibit superconductivity at T c 14 K, in magnetic fields of up to 55 T. Two-dimensional feature and superconducting fluctuations of the samples are found to be weak, because the resistive broadening effect on applied magnetic fields of up to 14 T is small. The Pauli paramagnetic effect is obviously evidenced by the strong suppression of the μ0H c2ab(T) (H ab) curve and nearly isotropic μ0H c2(0) ≈ 47 T is seen for both H ab and H c. This fact is almost identical to the results of Fe1+yTe0.6Se0.4 single crystals reported previously. We have discussed that the small anisotropy of the upper critical field at low temperatures in Fe1+y(Te,Se) systems against the variation of the Te/Se ratio.