NoRA: A Tensor Network Ansatz for Volume-Law Entangled Equilibrium States of Highly Connected Hamiltonians

IF 5.1 2区物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY

Quantum Pub Date : 2024-05-27 DOI:10.22331/q-2024-05-27-1362

Valérie Bettaque, Brian Swingle

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引用次数: 0

Abstract

Motivated by the ground state structure of quantum models with all-to-all interactions such as mean-field quantum spin glass models and the Sachdev-Ye-Kitaev (SYK) model, we propose a tensor network architecture which can accomodate volume law entanglement and a large ground state degeneracy. We call this architecture the non-local renormalization ansatz (NoRA) because it can be viewed as a generalization of MERA, DMERA, and branching MERA networks with the constraints of spatial locality removed. We argue that the architecture is potentially expressive enough to capture the entanglement and complexity of the ground space of the SYK model, thus making it a suitable variational ansatz, but we leave a detailed study of SYK to future work. We further explore the architecture in the special case in which the tensors are random Clifford gates. Here the architecture can be viewed as the encoding map of a random stabilizer code. We introduce a family of codes inspired by the SYK model which can be chosen to have constant rate and linear distance at the cost of some high weight stabilizers. We also comment on potential similarities between this code family and the approximate code formed from the SYK ground space.

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NoRA：高度连接哈密尔顿体的体律纠缠平衡态的张量网络反演

受均场量子自旋玻璃模型和萨赫德夫-叶-基塔耶夫（SYK）模型等具有全对全相互作用的量子模型基态结构的启发，我们提出了一种张量网络结构，它可以容纳体积律纠缠和大基态退行性。我们称这种架构为非局部重正化解析（NoRA），因为它可以被看作是 MERA、DMERA 和分支 MERA 网络的广义化，去除了空间局部性的限制。我们认为，该架构的潜在表现力足以捕捉 SYK 模型地面空间的纠缠性和复杂性，从而使其成为一个合适的变分等式，但我们将对 SYK 的详细研究留待未来工作中进行。我们将在张量是随机克利福德门的特殊情况下进一步探索该架构。在这种情况下，该架构可视为随机稳定器代码的编码映射。我们介绍了一系列受 SYK 模型启发的编码，这些编码可以选择具有恒定速率和线性距离，但代价是一些高权重稳定器。我们还评论了这个码族与由 SYK 地面空间形成的近似码之间的潜在相似性。

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来源期刊

Quantum Physics and Astronomy-Physics and Astronomy (miscellaneous)

CiteScore

9.20

自引率

10.90%

发文量

241

审稿时长

16 weeks

期刊介绍： Quantum is an open-access peer-reviewed journal for quantum science and related fields. Quantum is non-profit and community-run: an effort by researchers and for researchers to make science more open and publishing more transparent and efficient.