约瑟夫森和安德烈夫通过量子点进行传输

IF 35 1区物理与天体物理 Q1 PHYSICS, CONDENSED MATTER

Advances in Physics Pub Date : 2011-10-13 DOI:10.1080/00018732.2011.624266

A. Martín-Rodero, A. Levy Yeyati

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引用次数: 216

摘要

在本文中，我们回顾了超导和正常电极连接的量子点系统的输运性质的最新进展。综述主要集中在理论成果上，尽管也给出了最相关的实验结果的总结。讨论的很大一部分是致力于将引线中超导性普遍化的单能级安德森型模型，它已经包含了大多数有趣的物理现象。特别关注了配对和近藤相关之间的竞争，π结行为的出现，Andreev和共振隧道的相互作用，以及Andreev束缚态的重要作用，这些束缚态表征了大多数这些系统的光谱性质。我们给出了描述这些性质的几种不同的解析和数值方法的技术细节。我们进一步讨论了最近的理论努力，致力于将这种分析扩展到更复杂的情况，如多点、多水平或多终端配置，在这些情况下预计会出现新的现象。这包括约瑟夫森电流对局域自旋态的控制，以及通过非局域安德烈夫过程产生纠缠电子对的可能性。

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Josephson and Andreev transport through quantum dots

In this article, we review the state of the art on the transport properties of quantum dot systems connected to superconducting and normal electrodes. The review is mainly focused on the theoretical achievements, although a summary of the most relevant experimental results is also given. A large part of the discussion is devoted to the single-level Anderson-type models generalized to include superconductivity in the leads, which already contains most of the interesting physical phenomena. Particular attention is paid to the competition between pairing and Kondo correlations, the emergence of π-junction behavior, the interplay of Andreev and resonant tunneling, and the important role of Andreev bound states that characterized the spectral properties of most of these systems. We give technical details on the several different analytical and numerical methods which have been developed for describing these properties. We further discuss the recent theoretical efforts devoted to extend this analysis to more complex situations like multidot, multilevel or multiterminal configurations in which novel phenomena is expected to emerge. These include control of the localized spin states by a Josephson current and also the possibility of creating entangled electron pairs by means of non-local Andreev processes.

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来源期刊

Advances in Physics 物理-物理：凝聚态物理

CiteScore

67.60

自引率

0.00%

发文量

期刊介绍： Advances in Physics publishes authoritative critical reviews by experts on topics of interest and importance to condensed matter physicists. It is intended for motivated readers with a basic knowledge of the journal’s field and aims to draw out the salient points of a reviewed subject from the perspective of the author. The journal''s scope includes condensed matter physics and statistical mechanics: broadly defined to include the overlap with quantum information, cold atoms, soft matter physics and biophysics. Readership: Physicists, materials scientists and physical chemists in universities, industry and research institutes.