Ultranarrow resonance in Coulomb drag between quantum wires at coinciding densities

Abstract

We investigate the influence of the chemical potential mismatch (different electron densities) on Coulomb drag between two parallel ballistic quantum wires. For pair collisions, the drag resistivity D() shows a peculiar anomaly at =0 with D being finite at =0 and vanishing at any nonzero . The "bodyless" resonance in D() at zero is only broadened by processes of multi-particle scattering. We analyze Coulomb drag for finite in the presence of both two- and three-particle scattering within the kinetic equation framework, focusing on a Fokker-Planck picture of the interaction-induced diffusion in momentum space of the double-wire system. We describe the dependence of D on for both weak and strong intrawire equilibration due to three-particle scattering.