Saeed S. Jahromi, Max Hörmann, Patrick Adelhardt, Sebastian Fey, Hooman Karamnejad, Román Orús, Kai Phillip Schmidt
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引用次数: 0
摘要
我们使用张量网络方法和高阶联簇展开来探索反铁磁基塔耶夫蜂巢模型在磁场中一般自旋 S 值的量子相图。对纯基塔耶夫模型的张量网络计算证实,在近邻之外不存在通量和自旋-自旋相关性,同时揭示了S ∈ 1, 3/2, 2的离散方向对称性破缺,这与半经典极限一致。在所有考虑的自旋值中,都确定了介于基塔耶夫相和高场极化相之间的中间区域,显示了一连串以独特的局部磁化模式为特征的势相,而总磁化则随着场的函数平滑增加。对高场零动量间隙和光谱权重的关联簇展开表明,极化相存在量子临界崩溃,暗示了中间基塔耶夫耦合的奇异物理学。众所周知,反铁磁自旋 1/2 基塔耶夫模型在过渡到完全极化态之前,在磁场作用下有一个中间阶段。然而,对于更高的自旋,这一阶段的性质仍不清楚。本文利用张量网络方法和高阶链接簇展开,探索了反铁磁性基塔耶夫蜂巢模型在磁场中的量子相图,发现了在不同自旋值下具有不同局部磁化模式的中间阶段。
Kitaev honeycomb antiferromagnet in a field: quantum phase diagram for general spin
We use tensor-network methods and high-order linked-cluster expansions to explore the quantum phase diagram of the antiferromagnetic Kitaev honeycomb model in a magnetic field for general spin S values. Tensor network calculations for the pure Kitaev model confirm the absence of fluxes and spin-spin correlations beyond nearest neighbors, while revealing discrete orientational symmetry breaking for S ∈ 1, 3/2, 2, consistent with the semiclassical limit. An intermediate region between Kitaev phases and the high-field polarized phase is identified for all considered spin values, showing a sequence of potential phases characterized by distinct local magnetization patterns while the total magnetization increases smoothly as a function of the field. Linked-cluster expansions for the high-field zero-momentum gap and spectral weight indicate a quantum critical breakdown of the polarized phase, suggesting exotic physics at intermediate Kitaev couplings. The antiferromagnetic spin 1/2 Kitaev model is known to have an intermediate phase under a magnetic field before transitioning to a fully polarized state. However, the nature of this phase for higher spins remained unclear. This paper explores the quantum phase diagram of the antiferromagnetic Kitaev honeycomb model in a magnetic field using tensor-network methods and high-order linked cluster expansions, uncovering an intermediate phase with distinct local magnetization patterns across different spin values.
期刊介绍:
Communications Physics is an open access journal from Nature Research publishing high-quality research, reviews and commentary in all areas of the physical sciences. Research papers published by the journal represent significant advances bringing new insight to a specialized area of research in physics. We also aim to provide a community forum for issues of importance to all physicists, regardless of sub-discipline.
The scope of the journal covers all areas of experimental, applied, fundamental, and interdisciplinary physical sciences. Primary research published in Communications Physics includes novel experimental results, new techniques or computational methods that may influence the work of others in the sub-discipline. We also consider submissions from adjacent research fields where the central advance of the study is of interest to physicists, for example material sciences, physical chemistry and technologies.
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