Abstract
The ternary iron arsenide CaFe2As2 becomes superconducting by hole doping which was achieved by the partial substitution of Ca by Na. We have found bulk superconductivity at 26.0 K in a sample of (Ca1-xNax)Fe2As2 with a nominal composition of x = 0.4. The a-parameter shrank and the c-parameter expanded by the Na substitution. The parent compound CaFe2As2 forms the tetragonal ThCr2Si2-type structure, which is a poor metal and decrease of resistivity started below 160 K, presumably associated with the spin-density wave order. By substituting Ca with Na, holes are introduced to the FeAs layers, which weakens the resistive anomaly and induces the superconductivity.