广义四色基塔耶夫模型上的经典 $\mathbb{Z}_2$ 自旋液体

arXiv - PHYS - Strongly Correlated Electrons Pub Date : 2024-09-06 DOI:arxiv-2409.04061

Han Yan, Rico Pohle

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引用次数: 0

摘要

尽管人们已经在量子和经典体系中对 $U$(1)自旋液体进行了广泛研究，但由具有近邻双线性自旋相互作用的模型所产生的精确经典 $\mathbb{Z}_2$ 自旋液体仍然非常罕见。在这封信中，我们探索了四色基塔耶夫（Kitaev）模型，将其作为稳定经典$\mathbb{Z}_2$自旋液体的最小模型，适用于广泛的三配位晶格家族。通过提出一种$\mathbb{Z}_2$晶格规理论，我们发现这种自旋液体是由一个新兴的高斯定律来描述的，它具有有效的电荷-2凝聚和去约束的分数化键电荷激发。我们用蒙特卡罗模拟补充了我们的发现，揭示了从高温准磁体到低温液相的交叉，其特征是残余熵、经典的 $\mathbb{Z}_2$ 通量顺序和弥散的自旋结构因子。

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Classical $\mathbb{Z}_2$ spin liquid on the generalized four-color Kitaev model

While $U$(1) spin liquids have been extensively studied in both quantum and classical regimes, exact classical $\mathbb{Z}_2$ spin liquids arising from models with nearest-neighbor, bilinear spin interactions are still rare. In this Letter, we explore the four-color Kitaev model as a minimal model for stabilizing classical $\mathbb{Z}_2$ spin liquids across a broad family of tricoordinated lattices. By formulating a $\mathbb{Z}_2$ lattice gauge theory, we identify this spin liquid as being described by an emergent Gauss's law with effective charge-2 condensation, and deconfined fractionalized bond-charge excitations. We complement our findings with Monte Carlo simulations, revealing a crossover from a high-temperature paramagnet to a low-temperature liquid phase characterized by residual entropy, classical $\mathbb{Z}_2$ flux order, and diffuse spin structure factors.

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arXiv - PHYS - Strongly Correlated Electrons

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