对称性强化的多体分离性转换

Yu-Hsueh Chen, Tarun Grover
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引用次数: 0

摘要

我们从可分性的角度研究了具有对称性的量子多体混合态,即混合态是否可以表达为短程纠缠对称纯态的集合。我们提供了各种状态下 "对称性强制分离性转换 "的证据,在其中一种状态下,混合态可以表达为对称短程-纠缠对称纯态的凸和,而在另一种状态下,这种表达方式并不可行。我们首先讨论了表现出离散对称性自发破缺的汉密尔顿的吉布斯态,并认为相关的热相变可以看作是对称性强制分离性转变。接下来,我们研究了各种维度中受到局部退相干影响的团簇态,并确定了几种不同的混合态相和相关的分离性相变,这也为最近讨论的 "平均对称保护拓扑秩序 "提供了另一种视角。我们还研究了去相干 p+ip 超导,发现如果去相干明确地打破了费米子奇偶性,那么所产生的混合态可以表示为非手性态的凸和,而费米子奇偶性保留的去相干会导致非零阈值处的相变,这与费米子奇偶性的自发打破相对应。最后,我们简要讨论了满足无低能琐态特性的系统,如最近发现的良好低密度奇偶校验码,并论证了这类系统的吉布斯态表现出温度调谐的分离性转变。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Symmetry-Enforced Many-Body Separability Transitions

Symmetry-Enforced Many-Body Separability Transitions
We study quantum many-body mixed states with a symmetry from the perspective of separability, i.e., whether a mixed state can be expressed as an ensemble of short-range-entangled symmetric pure states. We provide evidence for “symmetry-enforced separability transitions” in a variety of states, where in one regime the mixed state is expressible as a convex sum of symmetric short-range-entangled pure states, while in the other regime, such a representation is not feasible. We first discuss the Gibbs state of Hamiltonians that exhibit spontaneous breaking of a discrete symmetry, and argue that the associated thermal phase transition can be thought of as a symmetry-enforced separability transition. Next we study cluster states in various dimensions subjected to local decoherence, and identify several distinct mixed-state phases and associated separability phase transitions, which also provides an alternative perspective on recently discussed “average symmetry-protected topological order.” We also study decohered p+ip superconductors, and find that if the decoherence breaks the fermion parity explicitly, then the resulting mixed state can be expressed as a convex sum of nonchiral states, while a fermion parity–preserving decoherence results in a phase transition at a nonzero threshold that corresponds to spontaneous breaking of fermion parity. Finally, we briefly discuss systems that satisfy the no low-energy trivial state property, such as the recently discovered good low-density parity-check codes, and argue that the Gibbs state of such systems exhibits a temperature-tuned separability transition.
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