Coupled Magnetic and Superconducting Transitions in Sr2VO3FeAs Under Pressure

Abstract

We report muon spin rotation (μSR) and magnetization measurements on superconducting Sr2VO3FeAs under pressure. At ambient pressure, Sr2VO3FeAs undergoes an antiferromagnetic transition of the V moments at TN and becomes superconducting at Tc<TN. As a function of pressure, TN initially decreases while Tc increases. Surprisingly, once TN≈ Tc at 0.6~GPa, TN reverses its trend and increases together with Tc suggesting that the static V magnetism is a prerequisite for superconductivity. We explain this cooperative coupling by a possible localization of the V 3d states below the magnetic transition which enables the nesting of the Fermi surface necessary for superconductivity.