Disordered Kondo Nanoclusters: Effect of Energy Spacing
arXiv:cond-mat/0307486 · doi:10.1103/PhysRevB.70.132404
Abstract
Exact diagonalization results for Kondo nanoclusters alloyed with mixed valence impurities show that tuning the {\it energy spacing}, $Î$, drives the system from the Kondo to the RKKY regime. The interplay of $Î$ and disorder gives rise to a $Î$ versus concentration T=0 phase diagram very rich in structure, where regions with prevailing Kondo or RKKY correlations alternate with domains of ferromagnetic order. The local Kondo temperatures, $T_K$, and RKKY interactions depend strongly on the local environment and are overall {\it enhanced} by disorder, in contrast to the hypothesis of ``Kondo disorder'' single-impurity models.
4pages 4 figuresDisordered Kondo Nanoclusters: Effect of Energy Spacing