螺旋液体和量子线中的马约拉纳束缚态。

Helical liquids and Majorana bound states in quantum wires.

机构信息

Department of Condensed Matter Physics, Weizmann Institute of Science, Rehovot, Israel.

出版信息

Phys Rev Lett. 2010 Oct 22;105(17):177002. doi: 10.1103/PhysRevLett.105.177002. Epub 2010 Oct 20.

DOI:10.1103/PhysRevLett.105.177002

Abstract

We show that the combination of spin-orbit coupling with a Zeeman field or strong interactions may lead to the formation of a helical electron liquid in single-channel quantum wires, with spin and velocity perfectly correlated. We argue that zero-energy Majorana bound states are formed in various situations when such wires are situated in proximity to a conventional s-wave superconductor. This occurs when the external magnetic field, the superconducting gap, or, most simply, the chemical potential vary along the wire. These Majorana states do not require the presence of a vortex in the system. Experimental consequences of the helical liquid and the Majorana states are also discussed.

摘要

我们表明，自旋轨道耦合与塞曼场或强相互作用的结合可能导致单通道量子线中螺旋电子液体的形成，其中自旋和速度完全相关。我们认为，当这些线接近传统的 s 波超导体时，在各种情况下都会形成零能马约拉纳束缚态。当外磁场、超导能隙或最简单的化学势沿线变化时，就会发生这种情况。这些马约拉纳态不需要系统中存在涡旋。还讨论了螺旋液体和马约拉纳态的实验结果。

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螺旋液体和量子线中的马约拉纳束缚态。

Helical liquids and Majorana bound states in quantum wires.

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