Proximate Tomonaga-Luttinger liquid in a spin-1/2 ferromagnetic XXZ chain compound

IF 3.1 3区材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

Physical Review Materials Pub Date : 2024-07-23 DOI:10.1103/physrevmaterials.8.074410

Boqiang Li, Xun Chen, Yuqian Zhao, Zhaohua Ma, Zongtang Wan, Yuesheng Li

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引用次数: 0

Abstract

The spin-

1 / 2

ferromagnetic XXZ chain is a prototypical many-body quantum model, exactly solvable via the integrable Bethe ansatz method, hosting a Tomonaga-Luttinger spin liquid. However, its clear experimental realizations remain absent. Here, we present a thorough investigation of the magnetism of the structurally disorder-free compound

LuCu {(OH)}_{3} {SO}_{4}

. By conducting magnetization and electron-spin-resonance measurements on the single-crystal sample, we establish that the title compound approximates the spin-

1 / 2

ferromagnetic XXZ chain model with a nearest-neighbor exchange strength of

J_{1} \sim 65 K

and an easy-plane anisotropy of

\sim 0.994

. The specific heat demonstrates a distinctive power-law behavior at low magnetic fields (with energy scales

\leq 0.02 J_{1}

) and low temperatures

(T \leq 0.03 J_{1})

. This behavior is consistent with the expectations of the ideal spin-

1 / 2

ferromagnetic XXZ chain model, thereby supporting the formation of a gapless Tomonaga-Luttinger spin liquid in

LuCu {(OH)}_{3} {SO}_{4}

Abstract Image

查看原文本刊更多论文

自旋-1/2 铁磁 XXZ 链化合物中的近似友永-鲁丁格液体

自旋-1/2 铁磁 XXZ 链是一个典型的多体量子模型，可通过可积分的贝特安萨特方法精确求解，其中寄存着一个 Tomonaga-Luttinger 自旋液体。然而，其明确的实验实现仍然缺失。在此，我们对结构无序的化合物 LuCu(OH)3SO4 的磁性进行了深入研究。通过对单晶样品进行磁化和电子自旋共振测量，我们确定了标题化合物近似于自旋-1/2 铁磁性 XXZ 链模型，其最近邻交换强度为 J1∼65K，易平面各向异性为 ∼0.994。在低磁场（能量尺度≤0.02J1）和低温（T≤0.03J1）条件下，比热表现出独特的幂律行为。这种行为与理想的自旋-1/2 铁磁 XXZ 链模型的预期一致，从而支持在 LuCu(OH)3SO4 中形成无间隙的 Tomonaga-Luttinger 自旋液体。

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来源期刊

Physical Review Materials Physics and Astronomy-Physics and Astronomy (miscellaneous)

CiteScore

5.80

自引率

5.90%

发文量

611

期刊介绍： Physical Review Materials is a new broad-scope international journal for the multidisciplinary community engaged in research on materials. It is intended to fill a gap in the family of existing Physical Review journals that publish materials research. This field has grown rapidly in recent years and is increasingly being carried out in a way that transcends conventional subject boundaries. The journal was created to provide a common publication and reference source to the expanding community of physicists, materials scientists, chemists, engineers, and researchers in related disciplines that carry out high-quality original research in materials. It will share the same commitment to the high quality expected of all APS publications.