Easy-axis ferromagnetic chain on a metallic surface
Abstract
The phases and excitation spectrum of an easy-axis ferromagnetic chain of S=1/2 magnetic impurities built on the top of a clean metallic surface are studied. As a function of the (Kondo) coupling to the metallic surface and at low temperatures, the spin chain exhibits a quantum phase transition from an Ising ferromagnetic phase with long-range order to a paramagnetic phase where quantum fluctuations destroy the magnetic order. In the paramagnetic phase, the system consists of a chain of Kondo-singlets where the impurities are completely screened by the metallic host. In the ferromagnetic phase, the excitations above the Ising gap are damped magnons, with a finite lifetime arising due to the coupling to the substrate. We discuss the experimental consequences of our results to spin-polarized electron energy loss spectroscopy (SPEELS), and we finally analyze possible extensions to spin chains with S>1/2.
Cite
@article{arxiv.1210.1195,
title = {Easy-axis ferromagnetic chain on a metallic surface},
author = {Alejandro M. Lobos and Miguel A. Cazalilla},
journal= {arXiv preprint arXiv:1210.1195},
year = {2013}
}
Comments
21 pages, 5 figures