Antiferromagnetic Order and Magnetic Frustration in the Honeycomb Heavy-Fermion System Ce(Pt1-xPdx)6Al3: 27Al and 195Pt NMR Studies

Abstract

Heavy-fermion systems with magnetic frustration offer a rich platform for investigating the interplay among Kondo screening, magnetic frustration, and quantum criticality. We report comprehensive 27Al and 195Pt nuclear magnetic resonance measurements on polycrystalline Ce(Pt1-xPdx)6Al3 (x = 0, 0.1, 0.2, and 0.3). For x = 0, the Knight shift, linewidth, and nuclear spin-lattice relaxation rate reveal a paramagnetic heavy-fermion ground state persisting down to 0.1~K, characterized by a coherence temperature Tcoh 15~K. Substituting Pd induces antiferromagnetic order at TN 3.5~K, while suppressing Tcoh. Comparison between x = 0.1 and x = 0.3 reveals a crossover from itinerant spin-density-wave antiferromagnetism to more localized-moment antiferromagnetism, indicating a shift toward the localized side of the Doniach phase diagram. These findings establish Ce(Pt1-xPdx)6Al3 as a tunable platform to explore the competition between Kondo screening and magnetic frustration.