Kondo behavior and conductance through 3 d impurities in gold chains doped with oxygen

M.A. BARRAL; S. DI NAPOLI; G. BLESIO; P. ROURA-BAS; A. CAMJAYI; L.O. MANUEL; A. A. ALIGIA; M.A. BARRAL; S. DI NAPOLI; G. BLESIO; P. ROURA-BAS; A. CAMJAYI; L.O. MANUEL; A. A. ALIGIA

JOURNAL OF CHEMICAL PHYSICS

AMER INST PHYSICS

Lugar: Melville, NY 11747-4300, USA; Año: 2017 vol. 146 p. 923151 - 923158

0021-9606

Combining ab initio calculations and effective models derived from them, we discuss the electronic structure of oxygen doped gold chains when one Au atom is replaced by any transition-metal atom of the 3d series. The effect of O doping is to bring extended Au 5dxz and 5dyz states to the Fermi level, which together with the Au states of zero angular momentum projection, lead to three possible channels for the screening of the magnetism of the impurity.For most 3d impurities the expected physics is similar to that of the underscreened Kondo model, with singular Fermi liquid behavior. For Fe and Co under a tetragonal crystal field introduced by leads, the system might display non-Fermi liquid behavior. Ni and Cu impurities are described by a S=1 two channel Kondo model and an SU(4) impurity Anderson model in the intermediate valence regime, respectively. In both cases, the system is a Fermi liquid, but the conductance shows some observable differences with the ordinary SU(2) Anderson model.