Electron spin resonance in Eu based Fe pnictides

Abstract

The phase diagrams of EuFe2-xCoxAs2 (0 ≤ x ≤ 0.4) and EuFe2As2-yPy (0 ≤ y ≤ 0.43) are investigated by Eu2+ electron spin resonance (ESR) in single crystals. From the temperature dependence of the linewidth H(T) of the exchange narrowed ESR line the spin-density wave (SDW) (T < T SDW) and the normal metallic regime (T > T SDW) are clearly distinguished. At T > T SDW the isotropic linear increase of the linewidth is driven by the Korringa relaxation which measures the conduction-electron density of states at the Fermi level. For T < T SDW the anisotropy probes the local ligand field, while the coupling to the conduction electrons disappears. With increasing substitution x or y the transition temperature T SDW decreases linearly accompanied by a linear decrease of the Korringa-relaxation rate from 8 Oe/K at x=y=0 down to 3 Oe/K at the onset of superconductivity at x ≈ 0.2 or at y ≈ 0.3, above which it remains nearly constant. Comparative ESR measurements on single crystals of the Eu diluted SDW compound Eu0.2Sr0.8Fe2As2 and superconducting (SC) Eu0.22Sr0.78Fe1.72Co0.28As2 corroborate the leading influence of the ligand field on the Eu2+ spin relaxation in the SDW regime as well as the Korringa relaxation in the normal metallic regime. Like in Eu0.5K0.5Fe2As2 a coherence peak is not detected in the latter compound at T c=21 K, which is in agreement with the expected complex anisotropic SC gap structure.