Possible superconducting fluctuation and pseudogap state above Tc in CsFe2As2

Abstract

Resistive, magnetization, torque, specific heat and scanning tunneling microscopy measurements are carried out on the hole heavily doped CsFe2As2 single crystals. A characteristic temperature T*13 K, which is several times higher than the superconducting transition temperature Tc=2.15 K, is observed and possibly related to the superconducting fluctuation or the pseudogap state. A diamagnetic signal detected by torque measurements starts from the superconducting state, keeps finite and vanishes gradually until a temperature near T*. Temperature dependent resistivity and specific heat also show kinks near T*. An asymmetric gap-like feature with the energy of 8.4 meV and a symmetric superconducting related gap of 2.2 meV on the scanning tunneling spectra are detected, and these pseudogap-related features disappear at temperatures up to at least 9 K. These observations by different experimental tools suggest the possible existence of superconducting fluctuation or pseudogap state in the temperature range up to 4 - 6 times of Tc in CsFe2As2.