High-temperature superconductivity in Eu_{0.5}K_{0.5}Fe_{2}As_{2}

EuFe2As2 shows a spin-density wave SDW type transition at 190 K and antiferromagnetic AF order below 20 K. Here, we have studied the effect of K substitution on the SDW transition at high temperature and AF Eu order at low temperature. 50% K substitution suppresses the SDW transition and in turn gives rise to high-temperature superconductivity below Tc=32 K, as observed in the electrical resistivity, AC susceptibility, as well as magnetization. A well defined anomaly in the specific heat provides additional evidence for bulk superconductivity. Below 10 K, short-range magnetic order of the Eu moments is suggested by a broad feature in the specific-heat data. Electronic structure calculations reveal very close similarity with the nonmagnetic superconductor Sr0.5K0.5Fe2As2, but yield localized 4f magnetic moments for the remaining Eu atoms.