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arxiv: 2509.09909 · v1 · pith:L2NWY3O2 · submitted 2025-09-12 · cond-mat.str-el

TbPt6Al3: A rare-earth-based g-wave altermagnet with a honeycomb structure

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classification cond-mat.str-el
keywords magneticcrystalstructuretbpt6al3alongaxisbeencollinear
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The magnetic properties of the Tb-honeycomb lattice compound TbPt6Al3, which crystallizes in the NdPt6Al3-type trigonal structure, have been studied by the measurements of electrical resistivity, magnetization M(T, B), and specific heat on single-crystalline samples. The magnetic susceptibility, M(T)/B, for B || c = 0.1 T shows a cusp at TN = 3.5 K, which temperature decreases with increasing the magnitude of B || c, while M(T)/B for B || a = 0.1 T remains constant with decreasing temperature below TN. This anisotropic behavior suggests a collinear antiferromagnetic (AFM) order of the Tb3+ moments pointing along the c axis. The data of M(T)/B for T > 10 K on the single crystal and that of inelastic neutron scattering from powdered samples have been simultaneously analyzed using the crystal field model. The analysis reveals the non-Kramers doublet ground state for the Tb3+ ion under the trigonal crystal field. The neutron powder diffraction measurement shows that the collinear AFM structure with a magnetic propagation vector k = [0, 0, 0] is associated with moments of 5.1 {\mu}B/Tb pointing along the c axis. Comparison of the magnetic point group with the nontrivial spin Laue group indicates that TbPt6Al3 is classified into bulk g-wave altermagnets.

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