Kondo effect in coupled quantum dots with RKKY interaction: Finite temperature and magnetic field effects

TL;DR

This paper investigates how temperature and magnetic fields influence the Kondo effect in coupled quantum dots with RKKY interaction, revealing phase transitions and resonance restoration.

Contribution

It provides a detailed analysis of finite temperature and magnetic field effects on the Kondo-RKKY system using NRG, highlighting phase transitions and resonance behavior.

Findings

Quantum phase transition between Kondo and singlet states.

Finite temperature and magnetic field restore Kondo resonance.

Results align with experimental observations on gold grain quantum dots.

Abstract

We study transport through two quantum dots coupled by an RKKY interaction as a function of temperature and magnetic field. By applying the Numerical Renormalization Group (NRG) method we obtain the transmission and the linear conductance. At zero temperature and magnetic field, we observe a quantum phase transition between the Kondo screened state and a local spin singlet as the RKKY interaction is tuned. Above the critical RKKY coupling the Kondo peak is split. However, we find that both finite temperature and magnetic field restore the Kondo resonance. Our results agree well with recent transport experiments on gold grain quantum dots in the presence of magnetic impurities.