서울대학교 응용물리연구소

세미나

IAP Seminar(Plethora of Physics in a Kagome Ferromagnet: Weyl Nodes, Flat Bands, and Anomalous Fractionalized Charge)

2024-10-30l 조회수 60
일시 : 2024-10-30 15:00 ~ 16:00
연사 : Dr. Y. Soh (Paul Scherrer Institute, Switzerland)
담당 : Prof. Je Geun Park
장소 : 23-317
Plethora of Physics in a Kagome Ferromagnet: Weyl Nodes, Flat Bands, and Anomalous Fractionalized Charge 
 
The kagome lattice is a particularly simple venue for seeing classical and quantum effects of frustration. Theoretical approaches have yielded many interesting conjectures, including for example the possibilities of quantum spin liquids and a fractional quantum Hall effect at zero applied field for ferromagnets, but experiments on real materials containing kagome layers have not validated even relatively straightforward predictions, such as flat bands, especially for metals. This follows because of the three-dimensionality and large unit cells of the materials. I will report on recent progress exploiting both density functional theory(1), transport measurements(2-4), and spectroscopic tools(5, 6) towards identifying Weyl nodes, flat bands, and anomalous fractionalized charge in a kagome ferromagnet, Fe3Sn2, which undergoes a spin reorientation transition that we visualize using magnetic force microscopy(7).
 
References 
 
1. M. Yao et al., Switchable Weyl nodes in topological Kagome ferromagnet Fe3Sn2. https://arxiv.org/abs/1810.01514
2. N. Kumar, Y. Soh, Y. H. Wang, Y. Xiong, Magnetotransport as a diagnostic of spin reorientation: Kagome ferromagnet as a case study. Physical Review B 100, 7 (2019).
3. N. Kumar, Y. Soh, Y. Wang, J. Li, Y. Xiong, Anomalous Planar Hall Effect in a kagome ferromagnet. https://arxiv.org/abs/2005.14237.
4. N. Kumar, Y. Soh, Y. Wang, J. Li, X. Y., Tuning the electronic band structure in a kagome ferromagnetic metal via magnetization. Phys Rev B 106, 045120 (2022).
5. S. A. Ekahana et al., Anomalous electrons in a metallic kagome ferromagnet. Nature 627, 19 (2024).
6. W. Zhang  et al., Spin waves in a ferromagnetic topological metal. https://arxiv.org/abs/2302.01457.
7. K. Heritage et al., Images of a First‐Order Spin‐Reorientation Phase Transition in a Metallic Kagome Ferromagnet. Advanced Functional Materials 30,  1909163 (2020).