NewEvery arXiv paper, its researchers & institutions — mapped.
paper

Orbital Kondo effect in fractional quantum Hall systems

arXiv:1502.07430 · doi:10.1103/PhysRevB.92.075301

Abstract

We study transport properties of a charge qubit coupling two chiral Luttinger liquids, realized by two antidots placed between the edges of an integer $ν=1$ or fractional $ν=1/3$ quantum Hall bar. We show that in the limit of a large capacitive coupling between the antidots, their quasiparticle occupancy behaves as a pseudo-spin corresponding to an orbital Kondo impurity coupled to a chiral Luttinger liquid, while the inter antidot tunnelling acts as an impurity magnetic field. The latter tends to destabilize the Kondo fixed point for the $ν=1/3$ fractional Hall state, producing an effective inter-edge tunnelling. We relate the inter-edge conductance to the susceptibility of the Kondo impurity and calculate it analytically in various limits for both $ν=1$ and $ν=1/3$.