Magnetic state dynamics in itinerant paramagnet UM3B2 (M= Co, Ir) probed by 11B NMR

Abstract

We have carried out the 11B NMR measurement on the itinerant paramagnetic systems UM3B2 (M = Co, Ir) to investigate the low-dimensional characteristics of the 5f-electrons due to the structural anisotropy. The recent X-ray analysis suggests that UIr3B2 has a different structure modulated from the ever-known superlattice. The azimuth angle variation of NMR spectrum within the ab-plane clarified that B atoms occupy the single site, and a certain ligands arrangement surrounding B atom turns to the same orientation as the another one through the three- or six-fold rotation around the c-axis. These results have been consistent with the X-ray proposition. To evaluate the temperature (T) development of general susceptibility (q,ω), Knight shift and nuclear spin-lattice relaxation rates measurements were performed and the similar variations of q,ω were identified in both UCo3B2 and UIr3B2. Above a crossover point defined as T*50 K, the evolution of q,ω is dominant at q=0, suggesting that ferromagnetic correlations develop in high-T regimes; meanwhile, below T*, the q=0 part in q,ω shows the saturation tendency, and a different class of dispersion at finite-q suddenly emerges. This particular magnetic correlations are interpreted as the antiferromagnetic correlations, and notable feature of the magnetic state dynamics in low-T regimes is that the antiferromagnetic correlations arise together with the ferromagnetic component at the same time. The unique magnetic correlations obtained from NMR experiment will be discussed by the possible low-dimensionality of UM3B2 lattice.

0

Turn this paper into a full lesson

ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.

Discussion (0)

Sign in to join the discussion.

Loading comments…