Intrinsic high-temperature superconductivity in ternary iron selenides

Abstract

We examine superconductivity in the mesoscopically mixed antiferromagnetic(AF) and superconducting (SC) phases of ternary iron selenides KyFe2-xSe2. It is shown that the interlayer hopping and AF order are key factors to determine Tc of the SC phase. In general, the hopping will produce deformed Fermi surfaces (FS's) that tend to suppress superconductivity. However, contrary to the common expectation, we find that larger AF order actually results in larger SC order, which explains the observed relatively high Tc in these phases. Furthermore our results indicate that by reducing the interlayer hopping appropriately, phase-separated KyFe2-xSe2 may exhibit its intrinsic SC phase in the two dimensional limit with a much higher Tc ( 65K) than what has been observed.