Unsupervised learning of interacting topological phases from experimental observables

IF 6.2 3区 综合性期刊 Q1 Multidisciplinary Fundamental Research Pub Date : 2024-09-01 DOI:10.1016/j.fmre.2022.12.016
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Abstract

Classifying topological phases of matter with strong interactions is a notoriously challenging task and has attracted considerable attention in recent years. In this paper, we propose an unsupervised machine learning approach that can classify a wide range of symmetry-protected interacting topological phases directly from the experimental observables and without a priori knowledge. We analytically show that Green’s functions, which can be derived from spectral functions that can be measured directly in an experiment, are suitable for serving as the input data for our learning proposal based on the diffusion map. As a concrete example, we consider a one-dimensional interacting topological insulators model and show that, through extensive numerical simulations, our diffusion map approach works as desired. In addition, we put forward a generic scheme to measure the spectral functions in ultracold atomic systems through momentum-resolved Raman spectroscopy. Our work circumvents the costly diagonalization of the system Hamiltonian, and provides a versatile protocol for the straightforward and autonomous identification of interacting topological phases from experimental observables in an unsupervised manner.

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基于实验观测的相互作用拓扑相位的无监督学习
对具有强相互作用的物质拓扑相进行分类是一项极具挑战性的任务,近年来引起了广泛关注。在本文中,我们提出了一种无监督机器学习方法,它可以直接从实验观测数据中对各种对称保护的相互作用拓扑相进行分类,而无需先验知识。我们通过分析表明,格林函数可以从实验中直接测量的光谱函数中导出,适合作为我们基于扩散图的学习建议的输入数据。作为一个具体的例子,我们考虑了一维相互作用拓扑绝缘体模型,并通过大量的数值模拟表明,我们的扩散图方法可以达到预期的效果。此外,我们还提出了一种通过动量分辨拉曼光谱测量超冷原子系统光谱函数的通用方案。我们的工作规避了代价高昂的系统汉密尔顿对角化,并提供了一种通用方案,可在无监督的情况下从实验观测数据中直接、自主地识别相互作用拓扑相。
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来源期刊
Fundamental Research
Fundamental Research Multidisciplinary-Multidisciplinary
CiteScore
4.00
自引率
1.60%
发文量
294
审稿时长
79 days
期刊介绍:
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