Local magnetism, magnetic order and spin freezing in the ‘nonmetallic metal’ FeCrAs

We present the results of x-ray scattering and muon-spin relaxation ($\mu^{+}$SR) measurements on the iron-pnictide compound FeCrAs. Polarized resonant x-ray scattering reveals the 120$^\circ$ periodicity expected from the suggested three-fold symmetric, non-collinear antiferromagnetic structure and provides an atom-specific measurement of the magnetic order, with moments residing solely on the chromium atoms. $\mu^+$SR measurements indicate a magnetically ordered phase with no evidence for phase separation or unusual dynamics in the muon time window that might reflect the atypical non-magnetic state of the Fe spins. At low temperatures $\mu^{+}$SR suggests a freezing of dynamics, likely reflecting the effect of disorder in our polycrystalline sample. Using density functional theory we propose a distinct muon stopping site in this compound and assess the degree of distortion induced by the implanted muon.