OtherOpen Access
Photoemission Evidence of a Novel Charge Order in Kagome Metal FeGe
Authors
Author Affiliations
University of Science and Technology of China, Chongqing University, Shanghai Advanced Research Institute, Shanghai Institute of Microsystem and Information Technology, ...
Published InResearch Square
Year2024
Abstract
A charge order has been discovered to emerge deep into the antiferromagnetic phase of the kagome metal FeGe. However, due to the existence of defects, the as-grown FeGe sample shows a nano-scale phase separation with a short range charge order behavior and this can be removed by annealing procedure where long range charge order phase will be stabilized. Thus, to study its intrinsic origin, the evolution of the low-lying electronic structure across the charge order phase transition of the annealed FeGe sample is investigated with angle-resolved photoemission spectroscopy. We do not find signatures supporting nesting mechanism between Fermi surface sections or van-Hove singularities for the charge order formation in FeGe. However, two obvious changes in the band structure have been…
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