Magnetism and its coexistence with superconductivity in CaK(Fe0.949Ni0.051)4As4: muon spin rotation/relaxation studies

Abstract

The magnetic response of CaK(Fe0.949Ni0.051)4As4 was investigated by means of the muon-spin rotation/relaxation. The long-range commensurate magnetic order sets in below the N\'eel temperature T N= 50.0(5)~K. The density-functional theory calculations have identified three possible muon stopping sites. The experimental data were found to be consistent with only one type of magnetic structure, namely, the long-range magnetic spin-vortex-crystal order with the hedgehog motif within the ab-plane and the antiferromagnetic stacking along the c-direction. The value of the ordered magnetic moment at T≈3 K was estimated to be m Fe=0.38(11) μ B (μ B is the Bohr magneton). A microscopic coexistence of magnetic and superconducting phases accompanied by a reduction of the magnetic order parameter below the superconducting transition temperature T c 9 K is observed. Comparison with 11, 122, and 1144 families of Fe-based pnictides points to existence of correlation between the reduction of the magnetic order parameter at T→ 0 and the ratio of the transition temperatures T c/T N. Such correlations were found to be described by Machida's model for coexistence of itinerant spin-density wave magnetism and superconductivity [Machida, J. Phys. Soc. Jpn. 50, 2195 (1981) and Bud'ko et al., Phys. Rev. B 98, 144520 (2018)].