Structural Origin of Boson Peak in Glasses

Boson peak, the excess low energy excitations in the terahertz regime, is one of the most unique features of disordered systems and has been linked to many anomalous properties of glass materials. The nature and structural origin of the boson peak remain elusive and have been debated for more than a...

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Main Authors Tian, Yuan, Shen, Xiaozhe, Gao, Qingyang, Lu, Zhen, Yang, Jie, Zheng, Qiang, Aleman, Christopher Florencio, Luo, Duan, Reid, Alexander Hume, Xu, Bin, Falk, Michael, Sheng, Howard, Cao, Jianming, Wang, Xijie, Chen, Mingwei
Format Journal Article
LanguageEnglish
Japanese
Published 19.11.2021
Subjects
Physics - Disordered Systems and Neural Networks
Physics - Materials Science
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Abstract Boson peak, the excess low energy excitations in the terahertz regime, is one of the most unique features of disordered systems and has been linked to many anomalous properties of glass materials. The nature and structural origin of the boson peak remain elusive and have been debated for more than a half century mainly due to the lack of real-time and real-space experimental insights of the dynamic phenomenon. In this work we employed femtosecond MeV ultrafast electron diffraction to characterize the atomic dynamics of metallic glasses in real time. The experiment reveals collective atomic oscillations, presented in elastic electron scattering and atomic pair distribution functions, within the boson peak frequency range of 1.0-1.8 THz in both reciprocal and real space. It was found that the oscillation frequency has reciprocal dependence on interatomic pair distances and the corresponding wave velocity experimentally affirms the transverse acoustic wave nature of the boson peak. The observed strong correlation between THz acoustic vibrations and coherent electron scattering provides compelling evidence that the boson peak originates from the collective transverse vibrational modes of structurally ordered atoms in the disordered system.
AbstractList Boson peak, the excess low energy excitations in the terahertz regime, is one of the most unique features of disordered systems and has been linked to many anomalous properties of glass materials. The nature and structural origin of the boson peak remain elusive and have been debated for more than a half century mainly due to the lack of real-time and real-space experimental insights of the dynamic phenomenon. In this work we employed femtosecond MeV ultrafast electron diffraction to characterize the atomic dynamics of metallic glasses in real time. The experiment reveals collective atomic oscillations, presented in elastic electron scattering and atomic pair distribution functions, within the boson peak frequency range of 1.0-1.8 THz in both reciprocal and real space. It was found that the oscillation frequency has reciprocal dependence on interatomic pair distances and the corresponding wave velocity experimentally affirms the transverse acoustic wave nature of the boson peak. The observed strong correlation between THz acoustic vibrations and coherent electron scattering provides compelling evidence that the boson peak originates from the collective transverse vibrational modes of structurally ordered atoms in the disordered system.
Author Lu, Zhen
Sheng, Howard
Xu, Bin
Shen, Xiaozhe
Tian, Yuan
Falk, Michael
Zheng, Qiang
Reid, Alexander Hume
Aleman, Christopher Florencio
Chen, Mingwei
Gao, Qingyang
Yang, Jie
Wang, Xijie
Cao, Jianming
Luo, Duan
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BackLink https://doi.org/10.48550/arXiv.2111.10171$$DView paper in arXiv
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Snippet Boson peak, the excess low energy excitations in the terahertz regime, is one of the most unique features of disordered systems and has been linked to many...
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SubjectTerms Physics - Disordered Systems and Neural Networks
Physics - Materials Science
Title Structural Origin of Boson Peak in Glasses
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