Non-Fermi liquid behavior in transport through Co doped Au chains

Abstract

We calculate the conductance as a function of temperature G(T) through Au monoatomic chains containing one Co atom as a magnetic impurity, and connected to two conducting leads with a 4-fold symmetry axis. Using the information derived from ab initio calculations, we construct an effective model that hybridizes a 3d7 quadruplet at the Co site with two 3d8 triplets through the hopping of 5dxz and 5dyz electrons of Au. The quadruplet is split by spin anisotropy due to spin-orbit coupling. Solving with the numerical renormalization group (NRG) % Wb: reverted my own change we find that at low temperatures G(T)=a-b T and the ground state impurity entropy is (2)/2, a behavior similar to the two-channel Kondo model. Stretching the chain leads to a non Kondo phase, with the physics of the underscreened Kondo model at the quantum critical point.