Unusual Kondo Physics in a Co Impurity Atom Embedded in Noble-Metal Chains

Author

Di Napoli, S. ; Barral, M.A. ; Roura-Bas, P. ; Aligia, A.A. ; Mokrousov, Y. ; Llois, A.M.

Author_Institution

Dept. de Fis. de la Materia Condensada, CAC-CNEA, Buenos Aires, Argentina

Volume

49

Issue

8

fYear

2013

fDate

Aug. 2013

Firstpage

4683

Lastpage

4686

Abstract

We analyze the conduction bands of the one dimensional noble-metal chains that contain a Co magnetic impurity by means of ab initio calculations. We compare the results obtained for Cu and Ag pure chains, as well as O doped Cu, Ag and Au chains with those previously found for Au pure chains. We find similar results in the case of Cu and Au hosts, whereas for Ag chains a different behavior is obtained. Differences and similarities among the different systems are analyzed by comparing the electronic structure of the three noble-metal hosts. The d orbitals of Cu chains at the Fermi level have the same symmetry as in the case of Au chains. These orbitals hybridize with the corresponding ones of the Co impurity, giving rise to the possibility of exhibiting a two-channel Kondo physics.

Keywords

Fermi level; Kondo effect; ab initio calculations; cobalt; conduction bands; copper; gold; magnetic impurities; silver; Ag:Co; Au:Co; Cu:Co; Fermi level; ab initio calculations; conduction bands; electronic structure; impurity atom; magnetic impurity; one-dimensional noble-metal chains; two-channel Kondo physics; Atomic measurements; Color; Correlation; Doping; Gold; Impurities; Physics; Magnetic properties; nanostructures; nanowires;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/TMAG.2013.2260730

Filename

6566090