A 2D heavy fermion CePb 3 kagome material on silicon: emergence of unique spin polarized states for spintronics.
Alexey N MihalyukDimitry V GruznevLeonid V BondarenkoAlexandra Y TupchayaYuriy E VekovshininSergey V EremeevAndrey V ZotovAlexander A SaraninPublished in: Nanoscale (2022)
We report on the successful synthesis of a 2D atomically thin heavy-fermion CePb 3 kagome compound on a Si(111) surface. Growth and morphology were controlled and characterized through scanning tunneling microscopy observations revealing the high crystalline quality of the sample. Angle-resolved photoelectron spectroscopy measurements revealed the giant highly-anisotropic Rashba-like spin splitting of the surface states and semi-metallic character of the spectrum. According to the DFT calculations, the occupied hole and unoccupied electron states with huge spin-orbit splitting and out-of-plane spin polarization reside at the M̄ points near the Fermi level E F , which is ≈100 meV above the experimental one. The out-of-plane FM magnetization was found to be preferred with Ce spin and orbital magnetic momenta values of 0.895 μ B and -0.840 μ B , respectively. The spin-split states near E F are primarily formed by Pb p xy orbitals with the admixing of Ce d and f electrons due to the Ce f-d hybridization acquired asymmetry with respect to the sign of k ∥ . The observed electronic structure of the CePb 3 /Si(111)√3 × √3 system is rather unique and in the hole-doped state, like in our experiment, can be enabled in the tunable spin current regime, which makes it a prospective 2D material for spintronic applications.