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电子相干嬗变为分数任意子。

Coherent transmutation of electrons into fractionalized anyons.

机构信息

Station Q, Microsoft Research, Santa Barbara, CA 93106, USA.

Department of Condensed Matter Physics, Weizmann Institute of Science, Rehovot, 76100, Israel.

出版信息

Science. 2014 Nov 7;346(6210):722-5. doi: 10.1126/science.1253251.

Abstract

Electrons have three quantized properties-charge, spin, and Fermi statistics-that are directly responsible for a vast array of phenomena. Here we show how these properties can be coherently and dynamically stripped from the electron as it enters a certain exotic state of matter known as a quantum spin liquid (QSL). In a QSL, electron spins collectively form a highly entangled quantum state that gives rise to the fractionalization of spin, charge, and statistics. We show that certain QSLs host distinct, topologically robust boundary types, some of which allow the electron to coherently enter the QSL as a fractionalized quasi-particle, leaving its spin, charge, or statistics behind. We use these ideas to propose a number of universal, conclusive experimental signatures that would establish fractionalization in QSLs.

摘要

电子具有三个量子化特性——电荷、自旋和费米统计,这些特性直接导致了一系列广泛的现象。在这里,我们展示了这些特性如何在电子进入一种称为量子自旋液体(QSL)的特殊物质状态时被连贯而动态地剥离。在 QSL 中,电子自旋集体形成一种高度纠缠的量子态,导致自旋、电荷和统计的分数化。我们表明,某些 QSL 具有独特的、拓扑稳定的边界类型,其中一些允许电子作为分数化的准粒子连贯地进入 QSL,从而将其自旋、电荷或统计信息留在后面。我们利用这些想法提出了一些通用的、结论性的实验特征,这些特征将确立 QSL 中的分数化现象。

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