双量子点中的有限频率噪声、法诺因子、ΔT 噪声和交叉相关性。

IF 2.3 4区 物理与天体物理 Q3 PHYSICS, CONDENSED MATTER Journal of Physics: Condensed Matter Pub Date : 2024-11-14 DOI:10.1088/1361-648X/ad92d4
Crépieux Adeline, Quynh Duong, Mireille Lavagna
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引用次数: 0

摘要

本文介绍了对与电子储层相连的双量子点中电流波动的理论研究,旨在推导出有限频率噪声、法诺系数和 ΔT 噪声。我们根据双量子点的格林函数和储层的自能建立了噪声的一般表达式。然后将这一结果应用于各种情况下的双量子点模型。对于非相互作用的双量子点,我们强调了该系统物理特性中的几个有趣特征。特别是,我们证明了当系统处于给定的工作状态时,或者当两个储层之间存在温度梯度,从而产生负 ΔT 噪声时,零频噪声和法诺因子都有可能显著降低。此外,在蜂窝顶点附近,两个储层之间的有限频率交叉相关器的符号会发生变化,这与零频率交叉相关器的情况截然不同,后者在整个 (ε1,ε2) 平面上都保持为负,ε1、ε2 分别是两个点中的水平能量。通过使用近似第一级数值方法,我们最终研究了双量子点中的有限频率噪声如何在库仑相互作用的影响下演变。
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Finite-frequency noise, Fano factor, ΔT-noise and cross-correlations in double quantum dots.

A theoretical study on electrical current fluctuations in a double quantum dot connected to electronic reservoirs is presented, with the aim of deriving the finite-frequency noise, the Fano factor and the ΔT-noise. We establish a general expression for the noise in terms of Green functions in the double quantum dot and self-energies in the reservoirs. This result is then applied to model double quantum dots in various situations. For a non-interacting double quantum dot, we have highlighted several interesting features in the physical properties of this system. In particular, we have demonstrated the possibility of obtaining a significant reduction in zero-frequency noise and Fano factor either when the system is placed in a given operating regime, or when a temperature gradient is applied between the two reservoirs, resulting in a negative ΔT-noise being generated. In addition, in the vicinity of honeycomb vertices, a sign change is observed in the finite-frequency cross-correlator between the two reservoirs, in contrast to what is obtained for the zero-frequency cross-correlator, which remains negative throughout the (ε1,ε2)-plane, ε1, ε2 being the level energies in each of the two dots. By using an approximate first-level numerical approach, we finally study how the finite-frequency noise in a double quantum dot evolves under the influence of Coulomb interactions.

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来源期刊
Journal of Physics: Condensed Matter
Journal of Physics: Condensed Matter 物理-物理:凝聚态物理
CiteScore
5.30
自引率
7.40%
发文量
1288
审稿时长
2.1 months
期刊介绍: Journal of Physics: Condensed Matter covers the whole of condensed matter physics including soft condensed matter and nanostructures. Papers may report experimental, theoretical and simulation studies. Note that papers must contain fundamental condensed matter science: papers reporting methods of materials preparation or properties of materials without novel condensed matter content will not be accepted.
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