Enhanced d-p hybridization intertwined with anomalous ground state formation in van der Waals-coupled magnetic metal Fe5GeTe2
Abstract
Fe5GeTe2 is a van der Waals (vdW)-coupled unconventional ferromagnetic metal with a high Curie temperature (TC) exceeding 300 K. The formation of an anomalous ground state significantly below TC has received considerable attention, resulting in increased interest in understanding the spin-polarized electronic state evolution near the Fermi energy (EF) as a function of temperature. Despite recent extensive studies, a microscopic understanding of the spin-polarized electronic structure around EF has not yet been established owing to the intrinsic complexity of both the crystal and band structures. In this study, we investigate the temperature dependence of element-specific soft X-ray magnetic circular dichroism (XMCD). A systematic temperature evolution in the XMCD signal from both magnetic Fe and its ligand Te is clearly observed. More importantly, the enhancement in the hybridization between the Fe 3d and Te 5p states in the zero-magnetic field limit is revealed, and we discuss its implications on the possible emergence of an exotic magnetic ground state in Fe5GeTe2.
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