Flat Band and η-Pairing States in a One-Dimensional Moiré Hubbard Model

IF 3.5 2区物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY

Chinese Physics Letters Pub Date : 2024-04-01 DOI:10.1088/0256-307x/41/4/047101

R. Wang, Z. Song

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Abstract

A Moiré system is formed when two periodic structures have a slightly mismatched period, resulting in unusual strongly correlated states in the presence of particle-particle interactions. The periodic structures can arise from the intrinsic crystalline order and periodic external field. We investigate a one-dimensional Hubbard model with periodic on-site potential of period n ₀, which is commensurate to the lattice constant. For large n ₀, the exact solution demonstrates that there is a midgap flat band with zero energy in the absence of Hubbard interaction. Each Moiré unit cell contributes two zero energy levels to the flat band. In the presence of Hubbard interaction, the midgap physics is demonstrated to be well described by a uniform Hubbard chain in which the effective hopping and on-site interaction strength can be controlled by the amplitude and period of the external field. Numerical simulations are performed to demonstrate the correlated behaviors in the finite-sized Moiré Hubbard system, including the existence of an η-pairing state and bound pair oscillation. This finding provides a method to enhance the correlated effect by a spatially periodic external field.

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一维莫伊里赫伯德模型中的平带和η配对态

当两个周期性结构的周期略微不匹配时，就会形成莫伊里系统，从而在粒子间相互作用的情况下产生不寻常的强相关态。周期性结构可能源于内在晶体秩序和周期性外部场。我们研究了一个一维哈伯德模型，该模型具有周期为 n0（与晶格常数相称）的周期性现场势。对于大 n0，精确解表明，在没有哈伯德相互作用的情况下，存在一个能量为零的中隙平带。每个莫伊里单元都为平带贡献了两个零能级。在存在哈伯德相互作用的情况下，中隙物理学被证明是由均匀哈伯德链很好地描述的，其中的有效跳变和现场相互作用强度可以由外部场的振幅和周期控制。数值模拟证明了有限尺寸莫伊里哈伯系统中的相关行为，包括η配对态的存在和束缚对振荡。这一发现提供了一种通过空间周期性外场增强相关效应的方法。

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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来源期刊

Chinese Physics Letters 物理-物理：综合

CiteScore

5.90

自引率

8.60%

发文量

13238

审稿时长

4 months

期刊介绍： Chinese Physics Letters provides rapid publication of short reports and important research in all fields of physics and is published by the Chinese Physical Society and hosted online by IOP Publishing.