Quantum dot in the pseudogap Kondo state
arXiv:cond-mat/0407165 · doi:10.1140/epjb/e2006-00013-5
Abstract
We investigate the transport properties of a (small) quantum dot connected to Fermi liquid leads with a power-law density of states (DOS). Such a system, if experimentally realizable, will have interesting physical properties including: (i) non-saturating Coulomb blockade peak widths; (ii) a non-unitary Kondo peak symmetrically placed between the Coulomb blockade peaks; (iii) an absence of conductance away from particle-hole symmetry at sufficiently low temperatures; and (iv) evidence of a quantum critical point as a function of dot-lead hopping. These properties are compared and contrasted with one dimensional Luttinger systems exhibiting a power-law "tunneling-DOS".
Real part of the self-energy added to Eq. (2). Accepted for publication in EPJB as a Rapid Note, 4 pages, 3 figures