Magnetic field dependence of the thermopower of Kondo-correlated quantum dots: Comparison with experiment

TL;DR

This paper extends theoretical analysis of the magnetic field dependence of thermopower in Kondo-correlated quantum dots, comparing results with recent experiments and revealing complex sign change behaviors across different regimes.

Contribution

It provides a detailed theoretical study of the field-dependent thermopower in Kondo quantum dots, including new sign change phenomena and comparison with experimental data.

Findings

Sign changes in thermopower at multiple temperatures with magnetic field.

Good agreement between theoretical predictions and experimental measurements.

Evolution of thermopower behavior from Kondo to mixed valence regimes.

Abstract

Signatures of the Kondo effect in the electrical conductance of strongly correlated quantum dots are well understood both experimentally and theoretically, while those in the thermopower have been the subject of recent interest. Here, we extend theoretical work [T. A. Costi, Phys. Rev. B {\bf 100}, 161106(R) (2019)] on the field-dependent thermopower of such systems, and carry out calculations in order to address a recent experiment on the field dependent thermoelectric response of Kondo-correlated quantum dots [A. Svilans {\em et al.,} Phys. Rev. Lett. {\bf 121}, 206801 (2018)]. In addition to the sign changes in the thermopower at temperatures $T_1(B)$ and $T_2(B)$ (present also for $B=0$) in the Kondo regime, an additional sign change was found [T. A. Costi, Phys. Rev. B {\bf 100}, 161106(R) (2019)] at a temperature $T_0(B)<T_1(B)<T_2(B)$ for fields exceeding a gate-voltage dependent value $B_0$, where $B_0$ is comparable to, but larger, than the field $B_c$ at which the Kondo resonance splits. We describe the evolution of the Kondo-induced sign changes in the thermopower at temperatures $T_0(B),T_1(B)$ and $T_2(B)$ with magnetic field and gate voltage from the Kondo regime to the mixed valence and empty orbital regimes. By carrying out detailed NRG calculations for the above quantities we address the recent experiment by A. Svilans {\em et al.,} Phys. Rev. Lett. {\bf 121}, 206801 (2018), which measures the field-dependent thermoelectric response of InAs quantum dots exhibiting the Kondo effect, finding good agreement for the overall trends in the measured field- and temperature-dependent thermoelectric response as a function of gate voltage.