Enhancement of the shot noise of a quantum dot–Luttinger lead system

Abstract

We investigate the joint effects of the intralead electron interaction and Coulombic dot–lead interaction on the shot noise of a quantum dot coupled to Luttinger liquid leads. A formula of the shot noise is derived by applying the nonequilibrium Green function technique. The shot noise is enhanced by the dot–lead interaction. For a weak or moderately strong interaction the differential shot noise demonstrates resonant-like behavior as a function of bias and gate voltages. In the limit of strong interaction resonant behavior disappears and the differential shot noise and Fano factor scale as a power law in bias voltage. Under some parameters, the differential shot noise may become negative around resonant peaks, and the physical reason is analyzed. • A formula of the shot noise is derived. • The shot noise is enhanced by the excitonic interaction. • The differential shot noise scales as a power law of high bias voltage. • The differential shot noise may become negative around resonant peaks.