3d flat bands and coupled 4f moments in the kagome-honeycomb permanent magnet Sm2Co17

Abstract

Rare earth permanent magnets (REPMs) with both localized moments and itinerant conduction bands are not only important for fundamental research but also have significant technological applications. In particular, Sm 2Co 17 is a prototypical high-temperture REPM, where the Co atoms form a kagome-honeycomb stacked lattice. Here we report synthesis of epitaxial Sm 2Co 17 films using molecular beam epitaxy and measurements of their momentum-resolved electronic structure from in-situ angle-resolved photoemission spectroscopy. Our results unveil two flat bands from Co 3d orbitals near the Fermi level (EF), one at \,--300\,meV and another right at EF, which arise from orbital-selective destructive interference and strong electron correlations, respectively. In addition, our results reveal that Sm 4f states are far away from EF (hence mostly localized) and exhibit an anomalous temperature dependence, caused by the 3d-4f magnetic coupling. Our findings provide direct spectroscopic insights to understand the strong uniaxial ferromagnetism in Sm 2Co 17 (and REPMs alike). Our work also opens avenues to explore flat-band physics near EF and emergent phenomena in correlated kagome-honeycomb lattices.

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