CaMn2Al10: itinerant Mn magnetism on the verge of ferromagnetic order

Abstract

We report the discovery of , a metal with strong magnetic anisotropy and moderate electronic correlations. Magnetization measurements find a Curie-Weiss moment of 0.83\,μB/Mn, significantly reduced from the Hund's rule value, and the magnetic entropy obtained from specific heat measurements is correspondingly small, only ≈ 9 \% of R ln\,2. These results imply that the Mn magnetism is highly itinerant, a conclusion supported by density functional theory calculations that find strong Mn-Al hybridization. Consistent with the layered nature of the crystal structure, the magnetic susceptibility is anisotropic below 20 K, with a maximum ratio of [010]/[001]≈ 3.5. A strong power-law divergence (T) T-1.2 below 20 K implies incipient ferromagnetic order, and an Arrott plot analysis of the magnetization suggests a vanishingly low Curie temperature TC 0. Our experiments indicate that ~is a rare example of a Mn-based weak itinerant magnet that is poised on the verge of ferromagnetic order.