Disorder-induced excitation continuum in a spin-1/2 cobaltate on a triangular lattice

A spin-1/2 triangular-lattice antiferromagnet is a prototypical frustrated quantum magnet, which exhibits remarkable quantum many-body effects that arise from the synergy between geometric spin frustration and quantum fluctuations. It can host quantum frustrated magnetic topological phenomena like q...

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Bibliographic Details
Published in:arXiv.org 2023-08
Main Authors: Gao, Bin, Chen, Tong, Chien-Lung, Huang, Qiu, Yiming, Xu, Guangyong, Liebman, Jesse, Chen, Lebing, Stone, Matthew B, Feng, Erxi, Cao, Huibo, Wang, Xiaoping, Xu, Xianghan, Cheong, Sang-Wook, Winter, Stephen M, Dai, Pengcheng
Format: Article
Language:English
Subjects:
Antiferromagnetism
Cobalt
Elementary excitations
Excitation
Neutron scattering
Spin dynamics
Spin liquid
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Summary:A spin-1/2 triangular-lattice antiferromagnet is a prototypical frustrated quantum magnet, which exhibits remarkable quantum many-body effects that arise from the synergy between geometric spin frustration and quantum fluctuations. It can host quantum frustrated magnetic topological phenomena like quantum spin liquid (QSL) states, highlighted by the presence of fractionalized quasiparticles within a continuum of magnetic excitations. In this work, we use neutron scattering to study CoZnMo\(_3\)O\(_8\), which has a triangular lattice of Jeff = 1/2 Co2+ ions with octahedral coordination. We found a wave-vector-dependent excitation continuum at low energy that disappears with increasing temperature. Although these excitations are reminiscent of a spin excitation continuum in a QSL state, their presence in CoZnMo\(_3\)O\(_8\) originates from magnetic intersite disorder-induced dynamic spin states with peculiar excitations. Our results, therefore, give direct experimental evidence for the presence of a disorder-induced spin excitation continuum.
ISSN:2331-8422
DOI:10.48550/arxiv.2308.09205