Prediction of Ferromagnetic Correlations in Coupled Double-Level Quantum Dots

G.B. Martins; C. A. Buesser; K. A. Al-Hassanieh; A. Moreo; E. Dagotto

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Prediction of Ferromagnetic Correlations in Coupled Double-Level Quantum Dots

机译：耦合双能级量子点中铁磁相关性的预测

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Numerical results for transport properties of two coupled double-level quantum dots (QDs) strongly suggest that under appropriate conditions the dots develop a novel ferromagnetic (FM) correlation at quarter filling (one electron per dot). In the strong coupling regime (Coulomb repulsion larger than electron hopping) and with interdot tunneling larger than tunneling to the leads, an S = 1 Kondo resonance develops in the density of states, leading to a peak in the conductance. A qualitative "phase diagram," incorporating the new FM phase, is presented. In addition, the necessary conditions for the FM regime are less restrictive than naively believed, leading to its possible experimental observation in real QDs.

机译：两个耦合的双能级量子点（QD）传输性质的数值结果强烈表明，在适当的条件下，这些点在四分之一填充时会形成新颖的铁磁（FM）相关性（每个点一个电子）。在强耦合状态下（库仑斥力大于电子跳跃），并且点间隧穿大于对引线的隧穿，在状态密度中会形成S = 1 Kondo共振，从而导致电导达到峰值。给出了包含新的FM相位的定性“相位图”。此外，调频机制的必要条件比天真的认为的限制要少，从而导致在实际量子点中可能进行实验观察。

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来源
《Physical review letters》 |2005年第2期|p.026804.1-026804.4|共4页
作者
G.B. Martins; C. A. Buesser; K. A. Al-Hassanieh; A. Moreo; E. Dagotto;
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作者单位

Department of Physics, Oakland University, Rochester, Michigan 48309, USA;

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原文格式 PDF
正文语种 eng
中图分类物理学;
关键词
quantum dots; strongly correlated electron systems; heavy fermions; coulomb blockade; single-electron tunneling;

机译：量子点;高度相关的电子系统;重费米子;库仑阻挡;单电子隧穿;

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Prediction of Ferromagnetic Correlations in Coupled Double-Level Quantum Dots

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