Structural and magnetic characterization of CeTa7 O19 and YbTa7 O19 with a two-dimensional pseudospin- 12 triangular lattice

Feihao Pan, Songnan Sun, Alexander I. Kolesnikov, Matthew B. Stone, Jiale Huang, Daye Xu, Chenglin Shang, Bingxian Shi, Xuejuan Gui, Zhongcen Sun, Jinchen Wang, Juanjuan Liu, Hongxia Zhang, Zhengxin Liu, Peng Cheng

Research output: Contribution to journalArticlepeer-review

Abstract

Triangular lattice antiferromagnets are prototypes for frustrated magnetism and may potentially realize novel quantum magnetic states such as a quantum spin-liquid ground state. A recent work suggests NdTa7O19 with rare-earth triangular lattice is a quantum spin-liquid candidate and highlights the large family of rare-earth heptatantalates as a framework for quantum magnetism investigation. In this paper, we report the structural and magnetic characterization of CeTa7O19 and YbTa7O19. Both compounds are isostructural to NdTa7O19 with no detectable structural disorder. For CeTa7O19, the crystal field energy levels and parameters are determined by inelastic neutron scattering measurements. Based on the crystal field result, the magnetic susceptibility data could be well fitted and explained, which reveals that CeTa7O19 is a highly anisotropic Ising triangular-lattice antiferromagnet (gz/gxy∼3) with very weak exchange interaction (J∼0.22 K). For YbTa7O19, millimeter-sized single crystals could be grown. The anisotropic magnetization and electron spin resonance data show that YbTa7O19 has a contrasting in-plane magnetic anisotropy with gz/gxy∼0.67 similar as that of YbMgGaO4. The above results indicate that CeTa7O19 and YbTa7O19 with pseudospin-1/2 ground states might either be quantum spin-liquid candidate materials or find applications in adiabatic demagnetization refrigeration due to the weak exchange interaction.

Original languageEnglish
Article number174448
JournalPhysical Review B
Volume110
Issue number17
DOIs
StatePublished - Nov 1 2024

Funding

This work was supported by the National Natural Science Foundation of China (Grants No. 12074426, No. 12474148), the Fundamental Research Funds for the Central Universities, and the Research Funds of Renmin University of China (Grant No. 22XNKJ40). A portion of this research used resources at the Spallation Neutron Source, a DOE Office of Science User Facility operated by the Oak Ridge National Laboratory. The beam time was allocated to SEQUOIA spectrometer on Proposal No. IPTS-30317.1.

FundersFunder number
Fundamental Research Funds for the Central Universities
National Natural Science Foundation of China12074426, 12474148
Renmin University of China22XNKJ40

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