Emergence of the isotropic Kitaev honeycomb lattice α − RuCl3 and its magnetic properties

Sang Youn Park; Seung Hwan Do; Kwang Yong Choi; D. Jang; Tae Hwan Jang; J. Scheffer; Chun Ming Wu; J. S. Gardner; J. M.S. Park; Jae Hoon Park; Sungdae Ji

doi:10.1088/1361-648X/ad294f

Emergence of the isotropic Kitaev honeycomb lattice α − RuCl₃ and its magnetic properties

Sang Youn Park, Seung Hwan Do, Kwang Yong Choi, D. Jang, Tae Hwan Jang, J. Scheffer, Chun Ming Wu, J. S. Gardner, J. M.S. Park, Jae Hoon Park, Sungdae Ji

Materials Science and Technology Div

Research output: Contribution to journal › Article › peer-review

10 Scopus citations

Abstract

We present a comprehensive investigation of the crystal and magnetic structures of the van der Waals antiferromagnet α − RuCl₃ using single crystal x-ray and neutron diffraction. The crystal structure at room temperature is a monoclinic ( C 2 / m ). However, with decreasing temperature, a remarkable first-order structural phase transition is observed, leading to the emergence of a rhombohedral ( R 3 ˉ ) structure characterized by three-fold rotational symmetry forming an isotropic honeycomb lattice. On further cooling, a zigzag-type antiferromagnetic order develops below T N = 6 ∼ 6.6 K. The critical exponent of the magnetic order parameter was determined to be β = 0.11 ( 1 ) , which is close to the two-dimensional Ising model. Additionally, the angular dependence of the magnetic critical field of the zigzag antiferromagnetic order for the polarized ferromagnetic phase reveals a six-fold rotational symmetry within the a b − plane. These findingsreflect the symmetry associated with the Ising-like bond-dependent Kitaev spin interactions and underscore the universality of the Kitaev interaction-dominated antiferromagnetic system.

Original language	English
Article number	215803
Journal	Journal of Physics Condensed Matter
Volume	36
Issue number	21
DOIs	https://doi.org/10.1088/1361-648X/ad294f
State	Published - May 29 2024

Funding

S H D thanks Jiaqiang Yan (ORNL) for the useful discussion. This work was supported by the National Research Foundation of Korea (NRF) funded by the Ministry of Science and ICT (No. 2022M3H4A1A04074153). S H D acknowledges support from the Gordon and Betty Moore Foundation’s EPiQS Initiative, Grant GBMF9069. S J acknowledges support from the KAERI Internal R&D Program (Grant No. 524550-24) This work was partially based on experiments performed on TriCS at the Swiss spallation neutron source SINQ, Paul Scherrer Institute, Villigen, Switzerland.

Keywords

Kitaev spin model
neutron diffraction
quantum magnetism

Access to Document

10.1088/1361-648X/ad294f

Cite this

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title = "Emergence of the isotropic Kitaev honeycomb lattice α − RuCl3 and its magnetic properties",

abstract = "We present a comprehensive investigation of the crystal and magnetic structures of the van der Waals antiferromagnet α − RuCl3 using single crystal x-ray and neutron diffraction. The crystal structure at room temperature is a monoclinic ( C 2 / m ). However, with decreasing temperature, a remarkable first-order structural phase transition is observed, leading to the emergence of a rhombohedral ( R 3 ˉ ) structure characterized by three-fold rotational symmetry forming an isotropic honeycomb lattice. On further cooling, a zigzag-type antiferromagnetic order develops below T N = 6 ∼ 6.6 K. The critical exponent of the magnetic order parameter was determined to be β = 0.11 ( 1 ) , which is close to the two-dimensional Ising model. Additionally, the angular dependence of the magnetic critical field of the zigzag antiferromagnetic order for the polarized ferromagnetic phase reveals a six-fold rotational symmetry within the a b − plane. These findingsreflect the symmetry associated with the Ising-like bond-dependent Kitaev spin interactions and underscore the universality of the Kitaev interaction-dominated antiferromagnetic system.",

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author = "Park, {Sang Youn} and Do, {Seung Hwan} and Choi, {Kwang Yong} and D. Jang and Jang, {Tae Hwan} and J. Scheffer and Wu, {Chun Ming} and Gardner, {J. S.} and Park, {J. M.S.} and Park, {Jae Hoon} and Sungdae Ji",

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AU - Do, Seung Hwan

AU - Choi, Kwang Yong

AU - Jang, D.

AU - Jang, Tae Hwan

AU - Scheffer, J.

AU - Wu, Chun Ming

AU - Gardner, J. S.

AU - Park, J. M.S.

AU - Park, Jae Hoon

AU - Ji, Sungdae

PY - 2024/5/29

Y1 - 2024/5/29

N2 - We present a comprehensive investigation of the crystal and magnetic structures of the van der Waals antiferromagnet α − RuCl3 using single crystal x-ray and neutron diffraction. The crystal structure at room temperature is a monoclinic ( C 2 / m ). However, with decreasing temperature, a remarkable first-order structural phase transition is observed, leading to the emergence of a rhombohedral ( R 3 ˉ ) structure characterized by three-fold rotational symmetry forming an isotropic honeycomb lattice. On further cooling, a zigzag-type antiferromagnetic order develops below T N = 6 ∼ 6.6 K. The critical exponent of the magnetic order parameter was determined to be β = 0.11 ( 1 ) , which is close to the two-dimensional Ising model. Additionally, the angular dependence of the magnetic critical field of the zigzag antiferromagnetic order for the polarized ferromagnetic phase reveals a six-fold rotational symmetry within the a b − plane. These findingsreflect the symmetry associated with the Ising-like bond-dependent Kitaev spin interactions and underscore the universality of the Kitaev interaction-dominated antiferromagnetic system.

AB - We present a comprehensive investigation of the crystal and magnetic structures of the van der Waals antiferromagnet α − RuCl3 using single crystal x-ray and neutron diffraction. The crystal structure at room temperature is a monoclinic ( C 2 / m ). However, with decreasing temperature, a remarkable first-order structural phase transition is observed, leading to the emergence of a rhombohedral ( R 3 ˉ ) structure characterized by three-fold rotational symmetry forming an isotropic honeycomb lattice. On further cooling, a zigzag-type antiferromagnetic order develops below T N = 6 ∼ 6.6 K. The critical exponent of the magnetic order parameter was determined to be β = 0.11 ( 1 ) , which is close to the two-dimensional Ising model. Additionally, the angular dependence of the magnetic critical field of the zigzag antiferromagnetic order for the polarized ferromagnetic phase reveals a six-fold rotational symmetry within the a b − plane. These findingsreflect the symmetry associated with the Ising-like bond-dependent Kitaev spin interactions and underscore the universality of the Kitaev interaction-dominated antiferromagnetic system.

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