Field-Induced Magnon Decay, Magnon Shadows, and Rotonlike Excitations in the Honeycomb Antiferromagnet YbBr3

IF 9 1区物理与天体物理 Q1 PHYSICS, MULTIDISCIPLINARY

Physical review letters Pub Date : 2025-10-03 DOI:10.1103/q29r-8x1m

J. A. Hernández, A. A. Eberharter, M. Schuler, J. Lass, D. G. Mazzone, R. Sibille, S. Raymond, K. W. Krämer, B. Normand, B. Roessli, A. M. Läuchli, M. Kenzelmann

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Abstract

Although the search for quantum many-body phenomena in magnetic materials has a strong focus on highly frustrated systems, even unfrustrated quantum magnets show a multitude of unconventional phenomena in their spin excitation spectra. YbBr3 is an excellent realization of the S=1/2 antiferromagnetic Heisenberg model on the honeycomb lattice, and we have performed detailed spectroscopic experiments with both unpolarized and polarized neutrons at all applied magnetic fields up to saturation. We observe extensive excitation continua, which cause strong renormalization and the decay of single magnons at higher fields, while coherent features include field-induced “shadows” of the single magnons and the spectacular emergence of a rotonlike excitation. To guide and interpret our experiments, we performed systematic calculations by the method of cylinder matrix-product states that provide quantitative agreement with the neutron scattering data and a qualitative benchmark for the spectral signatures of strong quantum fluctuations even in the absence of magnetic frustration.

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蜂窝状反铁磁体YbBr3中的场致磁振子衰减、磁振子阴影和Rotonlike激励

尽管对磁性材料中量子多体现象的研究主要集中在高度受挫的系统上，但即使是未受挫的量子磁体在其自旋激发光谱中也显示出许多非常规现象。YbBr3是蜂窝晶格上S=1/2反铁磁海森堡模型的一个很好的实现，我们在所有外加磁场直至饱和的情况下对非极化和极化中子进行了详细的光谱实验。我们观察到广泛的激发连续，这导致了强重整化和高场下单磁振子的衰变，而相干特征包括单磁振子的场诱导“阴影”和壮观的旋转状激发的出现。为了指导和解释我们的实验，我们通过柱体矩阵积态的方法进行了系统的计算，该方法提供了与中子散射数据的定量一致，并为强量子涨落的光谱特征提供了定性基准，即使在没有磁挫折的情况下。

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

Physical review letters 物理-物理：综合

CiteScore

16.50

自引率

7.00%

发文量

2673

审稿时长

2.2 months

期刊介绍： Physical review letters(PRL)covers the full range of applied, fundamental, and interdisciplinary physics research topics: General physics, including statistical and quantum mechanics and quantum information Gravitation, astrophysics, and cosmology Elementary particles and fields Nuclear physics Atomic, molecular, and optical physics Nonlinear dynamics, fluid dynamics, and classical optics Plasma and beam physics Condensed matter and materials physics Polymers, soft matter, biological, climate and interdisciplinary physics, including networks