Interplay of itinerant electrons and Ising moments in a hybrid honeycomb quantum magnet TmNi3Al9

H. Ge; C. J. Huang; Q. Zhang; N. Zhao; J. Yang; L. Wang; Y. Fu; L. Zhang; Z. M. Song; T. T. Li; F. Ding; J. B. Xu; Y. F. Zhang; X. Tong; S. M. Wang; J. W. Mei; A. Podlesnyak; L. S. Wu; Gang Chen; J. M. Sheng

doi:10.1103/PhysRevB.106.054434

Interplay of itinerant electrons and Ising moments in a hybrid honeycomb quantum magnet TmNi3Al9

H. Ge, C. J. Huang, Q. Zhang, N. Zhao, J. Yang, L. Wang, Y. Fu, L. Zhang, Z. M. Song, T. T. Li, F. Ding, J. B. Xu, Y. F. Zhang, X. Tong, S. M. Wang, J. W. Mei, A. Podlesnyak, L. S. Wu, Gang Chen, J. M. Sheng

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

1 Citation (Scopus)

Abstract

The interplay between itinerant electrons and local magnetic moments in quantum materials brings about rich and fascinating phenomena and stimulates various developments in the theoretical framework. In this work, thermodynamic, electric transport, and neutron diffraction measurements were performed on a newly synthesized honeycomb lattice magnet TmNi3Al9. Based on the experimental data, a magnetic-field-temperature phase diagram was constructed, exhibiting three essentially different magnetic regions. Below TN=2.97±0.02KTm3+, moments order antiferromagnetically in zero field. We found that the Tm3+ ions form a pseudodoublet ground state with the Ising-like moments lying normal to the two-dimensional honeycomb layers. Application of a magnetic field along the easy axis gradually suppresses the antiferromagnetic order in favor of an induced ferromagnetic state above the critical field Bc=0.92±0.05T. In the vicinity of Bc, a strong enhancement of the quantum spin fluctuations was observed. The quantum Ising nature of the local moments and the coupling to itinerant electrons are discussed.

Original language	English
Article number	054434
Journal	Physical Review B
Volume	106
Issue number	5
DOIs	https://doi.org/10.1103/PhysRevB.106.054434
Publication status	Published - 1 Aug 2022
Externally published	Yes

Access to Document

10.1103/PhysRevB.106.054434

Cite this

Ge, H., Huang, C. J., Zhang, Q., Zhao, N., Yang, J., Wang, L., Fu, Y., Zhang, L., Song, Z. M., Li, T. T., Ding, F., Xu, J. B., Zhang, Y. F., Tong, X., Wang, S. M., Mei, J. W., Podlesnyak, A., Wu, L. S., Chen, G., & Sheng, J. M. (2022). Interplay of itinerant electrons and Ising moments in a hybrid honeycomb quantum magnet TmNi3Al9. Physical Review B, 106(5), Article 054434. https://doi.org/10.1103/PhysRevB.106.054434

@article{62e7cbdeed34420bb7872123a9b6ebd9,

title = "Interplay of itinerant electrons and Ising moments in a hybrid honeycomb quantum magnet TmNi3Al9",

abstract = "The interplay between itinerant electrons and local magnetic moments in quantum materials brings about rich and fascinating phenomena and stimulates various developments in the theoretical framework. In this work, thermodynamic, electric transport, and neutron diffraction measurements were performed on a newly synthesized honeycomb lattice magnet TmNi3Al9. Based on the experimental data, a magnetic-field-temperature phase diagram was constructed, exhibiting three essentially different magnetic regions. Below TN=2.97±0.02KTm3+, moments order antiferromagnetically in zero field. We found that the Tm3+ ions form a pseudodoublet ground state with the Ising-like moments lying normal to the two-dimensional honeycomb layers. Application of a magnetic field along the easy axis gradually suppresses the antiferromagnetic order in favor of an induced ferromagnetic state above the critical field Bc=0.92±0.05T. In the vicinity of Bc, a strong enhancement of the quantum spin fluctuations was observed. The quantum Ising nature of the local moments and the coupling to itinerant electrons are discussed.",

author = "H. Ge and Huang, {C. J.} and Q. Zhang and N. Zhao and J. Yang and L. Wang and Y. Fu and L. Zhang and Song, {Z. M.} and Li, {T. T.} and F. Ding and Xu, {J. B.} and Zhang, {Y. F.} and X. Tong and Wang, {S. M.} and Mei, {J. W.} and A. Podlesnyak and Wu, {L. S.} and Gang Chen and Sheng, {J. M.}",

note = "Publisher Copyright: {\textcopyright} 2022 American Physical Society. ",

year = "2022",

month = aug,

day = "1",

doi = "10.1103/PhysRevB.106.054434",

language = "English",

volume = "106",

journal = "Physical Review B",

issn = "2469-9950",

publisher = "American Physical Society",

number = "5",

}

Ge, H, Huang, CJ, Zhang, Q, Zhao, N, Yang, J, Wang, L, Fu, Y, Zhang, L, Song, ZM, Li, TT, Ding, F, Xu, JB, Zhang, YF, Tong, X, Wang, SM, Mei, JW, Podlesnyak, A, Wu, LS, Chen, G & Sheng, JM 2022, 'Interplay of itinerant electrons and Ising moments in a hybrid honeycomb quantum magnet TmNi3Al9', Physical Review B, vol. 106, no. 5, 054434. https://doi.org/10.1103/PhysRevB.106.054434

TY - JOUR

T1 - Interplay of itinerant electrons and Ising moments in a hybrid honeycomb quantum magnet TmNi3Al9

AU - Ge, H.

AU - Huang, C. J.

AU - Zhang, Q.

AU - Zhao, N.

AU - Yang, J.

AU - Wang, L.

AU - Fu, Y.

AU - Zhang, L.

AU - Song, Z. M.

AU - Li, T. T.

AU - Ding, F.

AU - Xu, J. B.

AU - Zhang, Y. F.

AU - Tong, X.

AU - Wang, S. M.

AU - Mei, J. W.

AU - Podlesnyak, A.

AU - Wu, L. S.

AU - Chen, Gang

AU - Sheng, J. M.

PY - 2022/8/1

Y1 - 2022/8/1

N2 - The interplay between itinerant electrons and local magnetic moments in quantum materials brings about rich and fascinating phenomena and stimulates various developments in the theoretical framework. In this work, thermodynamic, electric transport, and neutron diffraction measurements were performed on a newly synthesized honeycomb lattice magnet TmNi3Al9. Based on the experimental data, a magnetic-field-temperature phase diagram was constructed, exhibiting three essentially different magnetic regions. Below TN=2.97±0.02KTm3+, moments order antiferromagnetically in zero field. We found that the Tm3+ ions form a pseudodoublet ground state with the Ising-like moments lying normal to the two-dimensional honeycomb layers. Application of a magnetic field along the easy axis gradually suppresses the antiferromagnetic order in favor of an induced ferromagnetic state above the critical field Bc=0.92±0.05T. In the vicinity of Bc, a strong enhancement of the quantum spin fluctuations was observed. The quantum Ising nature of the local moments and the coupling to itinerant electrons are discussed.

AB - The interplay between itinerant electrons and local magnetic moments in quantum materials brings about rich and fascinating phenomena and stimulates various developments in the theoretical framework. In this work, thermodynamic, electric transport, and neutron diffraction measurements were performed on a newly synthesized honeycomb lattice magnet TmNi3Al9. Based on the experimental data, a magnetic-field-temperature phase diagram was constructed, exhibiting three essentially different magnetic regions. Below TN=2.97±0.02KTm3+, moments order antiferromagnetically in zero field. We found that the Tm3+ ions form a pseudodoublet ground state with the Ising-like moments lying normal to the two-dimensional honeycomb layers. Application of a magnetic field along the easy axis gradually suppresses the antiferromagnetic order in favor of an induced ferromagnetic state above the critical field Bc=0.92±0.05T. In the vicinity of Bc, a strong enhancement of the quantum spin fluctuations was observed. The quantum Ising nature of the local moments and the coupling to itinerant electrons are discussed.

UR - http://www.scopus.com/inward/record.url?scp=85137722849&partnerID=8YFLogxK

U2 - 10.1103/PhysRevB.106.054434

DO - 10.1103/PhysRevB.106.054434

M3 - Article

AN - SCOPUS:85137722849

SN - 2469-9950

VL - 106

JO - Physical Review B

JF - Physical Review B

IS - 5

M1 - 054434

ER -

Interplay of itinerant electrons and Ising moments in a hybrid honeycomb quantum magnet TmNi3Al9

Abstract

Access to Document

Other files and links

Fingerprint

Cite this