两个弱连接电荷近藤电路的热传导振荡

T. Nguyen, M. Kiselev
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引用次数: 0

摘要

我们重新审视了在两个电荷近藤电路之间的弱链路上描述塞贝克效应的模型,该模型已在《物理学》中提出。修订版B 97(2018) 085403]。假设量子点接触的反射振幅较小,我们计算了微扰理论中的热电系数。我们重点研究了费米液体与费米液体、费米液体与非费米液体、非费米液体与非费米液体三种不同情况下热传导的线性响应方程。在费米液体和非费米液体状态下,分析了热传导振荡作为每个量子点栅电压的函数。我们讨论了该模型在热导测量中观察非费米液体行为特征的可能实验实现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Heat Conductance Oscillations in Two Weakly Connected Charge Kondo Circuits
We revisit a model describing Seebeck effect on a weak link between two charge Kondo circuits, which has been proposed in the [Phys. Rev. B 97 (2018) 085403]. We calculate the thermoelectric coefficients in the perturbation theory assuming smallness of the reflection amplitudes of the quantum point contacts. We focus on the linear response equations for the heat conductance in three different scenarios as: Fermi liquid vs Fermi liquid, Fermi liquid vs non-Fermi liquid, non-Fermi liquid vs non-Fermi liquid. The oscillations of the heat conductance as a function of the gate voltage of each quantum dot are analysed in both Fermi liquid and non-Fermi liquid regimes. We discuss possible experimental realizations of the model to observe the signatures of the non-Fermi liquid behaviour in the heat conductance measurements.
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