Tetrahedral triple-Q magnetic ordering and large spontaneous Hall conductivity in the metallic triangular antiferromagnet Co1/3TaS2

Tetrahedral triple-Q magnetic ordering and large spontaneous Hall conductivity in the metallic triangular antiferromagnet Co1/3TaS2

Nature Communications 14, 8346 (2023) The triangular lattice antiferromagnet (TLAF) has been the standard paradigm of frustrated magnetism for several decades. The most common magnetic ordering in insulating TLAFs is the 120 structure. However, a new triple-Q chiral ordering can emerge in metallic T...

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Bibliographic Details
Main Authors: Park, Pyeongjae, Cho, Woonghee, Kim, Chaebin, An, Yeochan, Kang, Yoon-Gu, Avdeev, Maxim, Sibille, Romain, Iida, Kazuki, Kajimoto, Ryoichi, Lee, Ki Hoon, Ju, Woori, Cho, En-Jin, Noh, Han-Jin, Han, Myung Joon, Zhang, Shang-Shun, Batista, Cristian D, Park, Je-Geun
Format: Journal Article
Language:English
Published: 12-11-2023
Subjects:
Physics - Materials Science
Physics - Strongly Correlated Electrons
Online Access:Get full text
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Summary:Nature Communications 14, 8346 (2023) The triangular lattice antiferromagnet (TLAF) has been the standard paradigm of frustrated magnetism for several decades. The most common magnetic ordering in insulating TLAFs is the 120 structure. However, a new triple-Q chiral ordering can emerge in metallic TLAFs, representing the short wavelength limit of magnetic skyrmion crystals. We report the metallic TLAF Co1/3TaS2 as the first example of tetrahedral triple-Q magnetic ordering with the associated topological Hall effect (non-zero {\sigma}_{xy}(H=0)). We also present a theoretical framework that describes the emergence of this magnetic ground state, which is further supported by the electronic structure measured by angle-resolved photoemission spectroscopy. Additionally, our measurements of the inelastic neutron scattering cross section are consistent with the calculated dynamical structure factor of the tetrahedral triple-Q state.
DOI:10.48550/arxiv.2303.03760