量子准周期Ising玻璃的局域化与对称破缺

A. Chandran, C. Laumann
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引用次数: 28

摘要

准周期调制可以通过定域孤立量子系统的自由度来防止它们的平衡。在本文中,我们证明了这样的系统可以表现出平衡中禁止的动态稳定的长程阶。具体来说,我们证明了准周期量子伊辛链中的对称破缺和局域化的相互作用产生了在所有能量密度下都稳定的\emph{准周期伊辛玻璃}。玻璃阶参量在熔融转变处消失,并伴有一个基本的奇点,平衡性质没有任何特征。零温度相图也出奇地丰富,由顺磁、铁磁和准周期性交替基态相组成,具有扩展的、局域的和临界非局域的低能量激发。该系统表现出一种不寻常的量子伊辛跃迁,其性质介于干净和无限随机伊辛跃迁之间。这些结果中有许多是根据我们对奥布里-安德烈对偶的几何推广得出的。准周期伊辛玻璃有望在近期量子光学实验中实现。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Localization and symmetry breaking in the quantum quasiperiodic Ising glass
Quasiperiodic modulation can prevent isolated quantum systems from equilibrating by localizing their degrees of freedom. In this article, we show that such systems can exhibit dynamically stable long-range orders forbidden in equilibrium. Specifically, we show that the interplay of symmetry breaking and localization in the quasiperiodic quantum Ising chain produces a \emph{quasiperiodic Ising glass} stable at all energy densities. The glass order parameter vanishes with an essential singularity at the melting transition with no signatures in the equilibrium properties. The zero temperature phase diagram is also surprisingly rich, consisting of paramagnetic, ferromagnetic and quasiperiodically alternating ground state phases with extended, localized and critically delocalized low energy excitations. The system exhibits an unusual quantum Ising transition whose properties are intermediate between those of the clean and infinite randomness Ising transitions. Many of these results follow from a geometric generalization of the Aubry-Andr\'e duality which we develop. The quasiperiodic Ising glass may be realized in near term quantum optical experiments.
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