Mesoscopic to universal crossover of transmission phase of multi-level quantum dots

TL;DR

This paper investigates how the transmission phase of multi-level quantum dots transitions from non-universal to universal behavior as the mean level spacing decreases, using a model that captures key experimental features.

Contribution

It introduces a model of multi-level quantum dots with Coulomb interactions that explains the universal phase lapses observed in small level spacing regimes.

Findings

Universal phase lapses arise from Fano-type antiresonances.

Model reproduces experimental transition from non-universal to universal behavior.

The behavior depends on the mean level spacing and dot parameters.

Abstract

Transmission phase \alpha measurements of many-electron quantum dots (small mean level spacing \delta) revealed universal phase lapses by \pi between consecutive resonances. In contrast, for dots with only a few electrons (large \delta), the appearance or not of a phase lapse depends on the dot parameters. We show that a model of a multi-level quantum dot with local Coulomb interactions and arbitrary level-lead couplings reproduces the generic features of the observed behavior. The universal behavior of \alpha for small \delta follows from Fano-type antiresonances of the renormalized single-particle levels.