The underscreened Kondo effect in ladder systems
Abstract
We introduce a new Kondo ladder model by coupling the well-known Takhtajan-Babujan S=1 chain to a half-filled one-dimensional electron gas, and we solve it using quantum field theory techniques. Through the so-called underscreened Kondo effect, this gives novel insights into low-dimensional spin liquid systems. For instance, the optical conductivity reveals only a pseudogap at despite of the insulating state, a coherent magnon peak in the dynamical spin susceptibility coexists with an incoherent spinon background, the magnetization yields a fractional-like quantization. More generally, this problem belongs to the class of Luttinger liquids in active environments, a topic of importance not only to the Kondo physics, but also to striped phases or carbon nanotubes. Experimental consequences on heavy-fermion systems are also discussed.
Keywords
Cite
@article{arxiv.cond-mat/9906345,
title = {The underscreened Kondo effect in ladder systems},
author = {Karyn Le Hur},
journal= {arXiv preprint arXiv:cond-mat/9906345},
year = {2009}
}
Comments
5 pages, RevTeX; to be published in Physical Review Letters