Quantum Spin Wave Excited from a Cr-Dy Single-Molecule Magnet

Bo Kai Ling; Ming Chang; Yuan Qi Zhai; Jiewei Deng; Maiko Kofu; Hanjie Guo; Jinkui Zhao; Zhendong Fu; Yan Zhen Zheng

doi:10.1021/jacs.4c13628

Quantum Spin Wave Excited from a Cr-Dy Single-Molecule Magnet

Bo Kai Ling
, Ming Chang
, Yuan Qi Zhai
, Jiewei Deng
, Maiko Kofu
, Hanjie Guo
, Jinkui Zhao
, Zhendong Fu
, Yan Zhen Zheng

材料科学与工程学院

Xi'an Jiaotong University
Northwestern Polytechnical University Xian
Guangdong University of Technology
J-PARC Center
Songshan Lake Materials Laboratory
CAS - Institute of Physics
Great Bay University

科研成果: 期刊稿件 › 文章 › 同行评审

6 引用（Scopus）

摘要

The efficient excitation and controlled propagation of nanoscale spin waves remain significant challenges, as their intrinsic dispersion relations are primarily determined by magnetic dipole and exchange interactions. Here we report the first observed coexistence of quantum spin wave excitation and single-molecule magnet behavior in a mixed chromium(III) and dysprosium(III) complex, namely Dy₄Cr₂(μ₃-F)₂(mdea)₃(piv)₁₀, which shows a large ferrimagnetic ground moment with a restricted quantum tunneling gap (<3.8 × 10^-7 cm^-1) up to nine levels, leading to an axial anisotropic energy barrier of 12 cm^-1 and opened hysteresis loop at 0.4 K. More importantly, quantized spin wave excitations ranging from 108 to 352 GHz have been observed by using inelastic neutron scattering spectroscopy, and the data can be well explained by the L&E-band theory with Δ/2 = 2.08 cm^-1 and ϵ(q) = 2.5 cm^-1, providing unambiguous evidence for nanoscale spin waves.

源语言	英语
页（从-至）	10935-10942
页数	8
期刊	Journal of the American Chemical Society
卷	147
期	13
DOI	https://doi.org/10.1021/jacs.4c13628
出版状态	已出版 - 2 4月 2025

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10.1021/jacs.4c13628

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title = "Quantum Spin Wave Excited from a Cr-Dy Single-Molecule Magnet",

abstract = "The efficient excitation and controlled propagation of nanoscale spin waves remain significant challenges, as their intrinsic dispersion relations are primarily determined by magnetic dipole and exchange interactions. Here we report the first observed coexistence of quantum spin wave excitation and single-molecule magnet behavior in a mixed chromium(III) and dysprosium(III) complex, namely Dy4Cr2(μ3-F)2(mdea)3(piv)10, which shows a large ferrimagnetic ground moment with a restricted quantum tunneling gap (<3.8 × 10-7 cm-1) up to nine levels, leading to an axial anisotropic energy barrier of 12 cm-1 and opened hysteresis loop at 0.4 K. More importantly, quantized spin wave excitations ranging from 108 to 352 GHz have been observed by using inelastic neutron scattering spectroscopy, and the data can be well explained by the L\&E-band theory with Δ/2 = 2.08 cm-1 and ϵ(q) = 2.5 cm-1, providing unambiguous evidence for nanoscale spin waves.",

author = "Ling, \{Bo Kai\} and Ming Chang and Zhai, \{Yuan Qi\} and Jiewei Deng and Maiko Kofu and Hanjie Guo and Jinkui Zhao and Zhendong Fu and Zheng, \{Yan Zhen\}",

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T1 - Quantum Spin Wave Excited from a Cr-Dy Single-Molecule Magnet

AU - Ling, Bo Kai

AU - Chang, Ming

AU - Zhai, Yuan Qi

AU - Deng, Jiewei

AU - Kofu, Maiko

AU - Guo, Hanjie

AU - Zhao, Jinkui

AU - Fu, Zhendong

AU - Zheng, Yan Zhen

PY - 2025/4/2

Y1 - 2025/4/2

N2 - The efficient excitation and controlled propagation of nanoscale spin waves remain significant challenges, as their intrinsic dispersion relations are primarily determined by magnetic dipole and exchange interactions. Here we report the first observed coexistence of quantum spin wave excitation and single-molecule magnet behavior in a mixed chromium(III) and dysprosium(III) complex, namely Dy4Cr2(μ3-F)2(mdea)3(piv)10, which shows a large ferrimagnetic ground moment with a restricted quantum tunneling gap (<3.8 × 10-7 cm-1) up to nine levels, leading to an axial anisotropic energy barrier of 12 cm-1 and opened hysteresis loop at 0.4 K. More importantly, quantized spin wave excitations ranging from 108 to 352 GHz have been observed by using inelastic neutron scattering spectroscopy, and the data can be well explained by the L&E-band theory with Δ/2 = 2.08 cm-1 and ϵ(q) = 2.5 cm-1, providing unambiguous evidence for nanoscale spin waves.

AB - The efficient excitation and controlled propagation of nanoscale spin waves remain significant challenges, as their intrinsic dispersion relations are primarily determined by magnetic dipole and exchange interactions. Here we report the first observed coexistence of quantum spin wave excitation and single-molecule magnet behavior in a mixed chromium(III) and dysprosium(III) complex, namely Dy4Cr2(μ3-F)2(mdea)3(piv)10, which shows a large ferrimagnetic ground moment with a restricted quantum tunneling gap (<3.8 × 10-7 cm-1) up to nine levels, leading to an axial anisotropic energy barrier of 12 cm-1 and opened hysteresis loop at 0.4 K. More importantly, quantized spin wave excitations ranging from 108 to 352 GHz have been observed by using inelastic neutron scattering spectroscopy, and the data can be well explained by the L&E-band theory with Δ/2 = 2.08 cm-1 and ϵ(q) = 2.5 cm-1, providing unambiguous evidence for nanoscale spin waves.

UR - https://www.scopus.com/pages/publications/85219161755

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DO - 10.1021/jacs.4c13628

M3 - 文章

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AN - SCOPUS:85219161755

SN - 0002-7863

VL - 147

SP - 10935

EP - 10942

JO - Journal of the American Chemical Society

JF - Journal of the American Chemical Society

IS - 13

ER -

Quantum Spin Wave Excited from a Cr-Dy Single-Molecule Magnet

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