Do quantum dots allow one access to pseudogap Kondo physics?
摘要
For the last decade, tunable quantum dot systems have allowed the investigation of Kondo physics wherein the quenching of a single spin on an artificial atom affects the conductance. The pseudogap Kondo model featuring a density of states = C, introduced by Withoff and Fradkin in 1990 was predicted to exhibit Kondo-like physics above a critical value of the Kondo coupling, J, which several groups have shown by numerical renormalization group (RG) is finite for r. Gonzalez-Buxton {\it{et al}} showed that the strong coupling limit of the particle-hole symmetric model leads to a non-trivial phase shift at low temperatures indicating incomplete screening of the local moment, while away from particle-hole symmetry one generically flows towards a ground state with . We examine the implications of this model for quantum dots whose leads are Fermi-liquid-like, yet possess a tunneling density of states which is suppressed at the Fermi energy as a power law.
引用
@article{arxiv.cond-mat/0407583,
title = {Do quantum dots allow one access to pseudogap Kondo physics?},
author = {John Hopkinson and Karyn Le Hur and Emilie Dupont},
journal= {arXiv preprint arXiv:cond-mat/0407583},
year = {2009}
}
备注
2 pages, 1 figure, poster to be presented at SCES'04 Karlsruhe July 26-30