The pseudogap behavior in the stoichiometric FeSe superconductor (Tc~9.4 K)

Abstract

This paper reports the synthesis and superconducting behaviors of the tetragonal iron-chalcogenide superconductor FeSe. The electrical resistivity and magnetic moment measurements confirmed its superconductivity with a Tczero and Tcmag at 9.4 K under ambient pressure. EPMA indicated the sample to have a stoichiometric Fe:Se ratio of 1:1 (0.02). The Seebeck coefficient which was 12.3 μV/K at room temperature, changed to a negative value near 200 K, indicating it to be a two carriers material. Above Tc, the (T) curve revealed an 'S' shape. Hence d(T)/dT, and d2(T)/dT2 showed pseudogap-like behavior at T*=110 K according to the resistivity curvature mapping (RCM) method for high Tc cuprates. Moreover, the magnetoresistance H(T)/H=0 under a magnetic field and the Seebeck coefficient S(T) revealed revealed pseudogap-like behavior near T*. Interestingly, at the same temperature, 30 K, the sign of S(T) and all signs of d2(T)/dT2 changed from negative to positive above Tc.