Emergence of superconductivity in strongly correlated hole-dominated Fe1-xSe

Authors :: Ni, S. L.
Sun, J. P.
Liu, S. B.
Yuan, J.
Yu, Li
Ma, M. W.
Zhang, L.
Pi, L.
Zheng, P.
Shen, P. P.
Li, D.
Shi, D. E.
Li, G. B.
Sun, J. L.
Zhang, G. M.
Jin, K.
Cheng, J. -G.
Zhou, F.
Dong, X. L.
Zhao, Z. X.
Publication Year :: 2019
Abstract: Here we establish a more complete phase diagram for FeSe system, based on experimental results of nonstoichiometric Fe1-xSe single crystals that we have developed recently, as well as nearly stoichiometric FeSe single crystals. The electronic correlation is found to be strongly enhanced in hole-dominated Fe1-xSe, as compared with electron-dominated FeSe, from the magnetic susceptibility and electrical transport measurements in the normal state. A superconducting dome is found to emerge starting from the strongly correlated hole-dominated regime with electron doping, while the tetragonal-orthorhombic phase transition at ~90 K is observed only at higher electron-doping levels in the electron-dominated regime.<br />Comment: 16 pages, 4 figures. First submitted on May 24, 2019