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The two-dimensional metallic triangular lattice antiferromagnet CeCd3P3

Strongly Correlated Electrons 2022-06-14 v1 Materials Science

Abstract

Single crystals of RRCd3_{3}P3_{3} (RR = La and Ce) have been investigated by magnetization, electrical resistivity, Hall coefficient, and specific heat. Magnetization measurements of CeCd3_{3}P3_{3} demonstrate clear quasi-2D magnetic behavior. Electrical resistivity and Hall coefficient measurements suggest that RRCd3_{3}P3_{3} compounds are low carrier density metallic systems, in strong contrast to an earlier study of polycrystalline material. Specific heat and electrical resistivity measurements of CeCd3_{3}P3_{3} reveal a high temperature (structural) phase transition at Ts=127T_{s} = 127~K and antiferromagnetic ordering below TN=0.41T_{N} = 0.41~K. Upon applying magnetic field in the easy-plane (HabH {\parallel} ab) the magnetic ordering temperature increases to 0.43~K at H15H \sim 15~kOe, demonstrating partial lifting of the magnetic frustration. The large electronic specific heat persists in an unusually wide range of temperature above TNT_{N}, due to the frustrated spins. The observation of conventional metallic behavior in the electrical resistivity suggests that the ff-electrons in CeCd3_{3}P3_{3} undergo negligible hybridization with the conduction electrons. Thus, CeCd3_{3}P3_{3} may be a model system for exploring the complex interplay between magnetic frustration and RKKY physics on a low carrier density Ce triangular lattice.

Keywords

Cite

@article{arxiv.2206.06366,
  title  = {The two-dimensional metallic triangular lattice antiferromagnet CeCd3P3},
  author = {Jeonghun Lee and Anja Rabus and N. R. Lee-Hone and D. M. Broun and Eundeok Mun},
  journal= {arXiv preprint arXiv:2206.06366},
  year   = {2022}
}

Comments

9 pages, 8 figures

R2 v1 2026-06-24T11:49:37.635Z