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

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作者
Pyeongjae Park
Woonghee Cho
Chaebin Kim
Yeochan An
Yoon-Gu Kang
Maxim Avdeev
Romain Sibille
Kazuki Iida
Ryoichi Kajimoto
Ki Hoon Lee
Woori Ju
En-Jin Cho
Han-Jin Noh
Myung Joon Han
Shang-Shun Zhang
Cristian D. Batista
Je-Geun Park
机构
[1] Seoul National University,Center for Quantum Materials
[2] Seoul National University,Department of Physics & Astronomy
[3] KAIST,Department of Physics
[4] Australian Nuclear Science and Technology Organisation (ANSTO),School of Chemistry
[5] The University of Sydney,Laboratory for Neutron Scattering and Imaging
[6] Paul Scherrer Institut,Materials and Life Science Division
[7] Comprehensive Research Organization for Science and Society (CROSS),Department of Physics
[8] J-PARC Center,Department of Physics
[9] Japan Atomic Energy Agency,School of Physics and Astronomy and William I. Fine Theoretical Physics Institute
[10] Incheon National University,Department of Physics and Astronomy
[11] Chonnam National University,Institute of Applied Physics
[12] University of Minnesota,undefined
[13] The University of Tennessee,undefined
[14] Quantum Condensed Matter Division and Shull-Wollan Center,undefined
[15] Oak Ridge National Laboratory,undefined
[16] Seoul National University,undefined
来源
Nature Communications | / 14卷
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摘要
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 σxy(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.
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