神经网络在量子比特晶格模型中学习符号规则的原理

Physical Review Pub Date : 2023-11-14 DOI:10.1103/physrevb.108.195127

Jin Cao, Shijie Hu, Zhiping Yin, Ke Xia

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引用次数: 0

摘要

神经网络是一个强大的工具，它可以揭示人类直觉之外的隐藏规律。然而，由于其复杂的非线性结构，往往以黑盒子的形式出现。利用古茨威勒平均场理论，我们可以展示量子比特晶格模型中有序态的符号规则原理。我们引入了一个具有单个隐藏神经元的浅前馈神经网络来表示这些符号规则。我们在各种模型中进行了系统的基准测试，包括广义Ising，自旋-$1/2$ XY，(受挫)海森堡环，环面上的三角形XY反铁磁体，以及任意填充的费米-哈伯德环。这些基准测试表明，所有的前序符号规则特征都可以以经典形式可视化，例如俯仰角。此外，量子涨落会导致定量准确度不完美。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Principle of learning sign rules by neural networks in qubit lattice models

A neural network is a powerful tool that can uncover hidden laws beyond human intuition. However, it often appears as a black box due to its complicated nonlinear structures. By drawing upon the Gutzwiller mean-field theory, we can showcase a principle of sign rules for ordered states in qubit lattice models. We introduce a shallow feed-forward neural network with a single hidden neuron to present these sign rules. We conduct systematical benchmarks in various models, including the generalized Ising, spin-$1/2$ XY, (frustrated) Heisenberg rings, triangular XY antiferromagnet on a torus, and the Fermi-Hubbard ring at an arbitrary filling. These benchmarks show that all the leading-order sign rule characteristics can be visualized in classical forms, such as pitch angles. Besides, quantum fluctuations can result in an imperfect accuracy rate quantitatively.

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Physical Review

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