Possible superconductivity above 25 K in single crystalline Co-doped BaFe2As2

Abstract

We present superconducting properties of single crystalline Ba(Fe0.9Co0.1)2As2 by measuring magnetization, resistivity, upper critical field, Hall coefficient, and magneto-optical images. The magnetization measurements reveal fish-tail hysteresis loop at high temperatures and relatively high critical current density above Jc=105 A/cm2 at low temperatures. Upper critical field determined by resistive transition is anisotropic with anisotropic parameter 3.5. Hall effect measurements indicate that Ba(Fe0.9Co0.1)2As2 is a multiband system and the mobility of electron is dominant. The magneto-optical imaging reveals prominent Bean-like penetration of vortices although there is a slight inhomogeneity in a sample. Moreover, we find a distinct superconductivity above 25 K, which leads us to speculate that higher transition temperature can be realized by fine tuning Co-doping level.