Soft-mode dynamics in the ferroelectric phase transition of GeTe

Soft-mode dynamics in the ferroelectric phase transition of GeTe

Abstract GeTe that exhibits a strong anharmonicity and a ferroelectric phase transition between the rhombohedral and cubic structures has emerged as one of the leading thermoelectric materials. Herein, combining molecular dynamics simulations and inelastic neutron scattering measurements, the lattic...

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Main Authors: Chen Wang, Jiangtao Wu, Zezhu Zeng, Jan Embs, Yanzhong Pei, Jie Ma, Yue Chen
Format: Article
Language:English
Published: Nature Publishing Group 2021-07-01
Series:npj Computational Materials
Online Access:https://doi.org/10.1038/s41524-021-00588-4
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spelling doaj-0b5f566f9e3c4c22983d5a67e52f91c02021-07-25T11:15:17ZengNature Publishing Groupnpj Computational Materials2057-39602021-07-01711710.1038/s41524-021-00588-4Soft-mode dynamics in the ferroelectric phase transition of GeTeChen Wang0Jiangtao Wu1Zezhu Zeng2Jan Embs3Yanzhong Pei4Jie Ma5Yue Chen6Department of Mechanical Engineering, The University of Hong KongKey Laboratory of Artificial Structures and Quantum Control (Ministry of Education), Shenyang National Laboratory for Materials Science, School of Physics and Astronomy, Shanghai Jiao Tong UniversityDepartment of Mechanical Engineering, The University of Hong KongLaboratory for Neutron Scattering and Imaging, Paul Scherrer InstituteInterdisciplinary Materials Research Center, School of Materials Science and Engineering, Tongji UniversityKey Laboratory of Artificial Structures and Quantum Control (Ministry of Education), Shenyang National Laboratory for Materials Science, School of Physics and Astronomy, Shanghai Jiao Tong UniversityDepartment of Mechanical Engineering, The University of Hong KongAbstract GeTe that exhibits a strong anharmonicity and a ferroelectric phase transition between the rhombohedral and cubic structures has emerged as one of the leading thermoelectric materials. Herein, combining molecular dynamics simulations and inelastic neutron scattering measurements, the lattice dynamics in GeTe have been investigated to reveal the soft-mode mechanisms across the phase transition. We have constructed a first-principles-based machine-learning interatomic potential, which successfully captures the dynamical ferroelectric phase transition of GeTe by adopting the neural network technique. Although the low-energy acoustic phonons remain relatively unaffected at elevated temperatures, the high-energy optical, and longitudinal acoustic phonons demonstrate strong renormalizations as evidenced from the vibrational phonon spectra, which are attributed to the large anharmonicity accompanying the phase transition. Furthermore, our results reveal a nonmonotonic temperature dependence of the soft-modes beyond the perturbative regime. The insight provided by this work into the soft-modes may pave the way for further phonon engineering of GeTe and the related thermoelectrics.https://doi.org/10.1038/s41524-021-00588-4
collection DOAJ
language English
format Article
sources DOAJ
author Chen Wang
Jiangtao Wu
Zezhu Zeng
Jan Embs
Yanzhong Pei
Jie Ma
Yue Chen
spellingShingle Chen Wang
Jiangtao Wu
Zezhu Zeng
Jan Embs
Yanzhong Pei
Jie Ma
Yue Chen
Soft-mode dynamics in the ferroelectric phase transition of GeTe
npj Computational Materials
author_facet Chen Wang
Jiangtao Wu
Zezhu Zeng
Jan Embs
Yanzhong Pei
Jie Ma
Yue Chen
author_sort Chen Wang
title Soft-mode dynamics in the ferroelectric phase transition of GeTe
title_short Soft-mode dynamics in the ferroelectric phase transition of GeTe
title_full Soft-mode dynamics in the ferroelectric phase transition of GeTe
title_fullStr Soft-mode dynamics in the ferroelectric phase transition of GeTe
title_full_unstemmed Soft-mode dynamics in the ferroelectric phase transition of GeTe
title_sort soft-mode dynamics in the ferroelectric phase transition of gete
publisher Nature Publishing Group
series npj Computational Materials
issn 2057-3960
publishDate 2021-07-01
description Abstract GeTe that exhibits a strong anharmonicity and a ferroelectric phase transition between the rhombohedral and cubic structures has emerged as one of the leading thermoelectric materials. Herein, combining molecular dynamics simulations and inelastic neutron scattering measurements, the lattice dynamics in GeTe have been investigated to reveal the soft-mode mechanisms across the phase transition. We have constructed a first-principles-based machine-learning interatomic potential, which successfully captures the dynamical ferroelectric phase transition of GeTe by adopting the neural network technique. Although the low-energy acoustic phonons remain relatively unaffected at elevated temperatures, the high-energy optical, and longitudinal acoustic phonons demonstrate strong renormalizations as evidenced from the vibrational phonon spectra, which are attributed to the large anharmonicity accompanying the phase transition. Furthermore, our results reveal a nonmonotonic temperature dependence of the soft-modes beyond the perturbative regime. The insight provided by this work into the soft-modes may pave the way for further phonon engineering of GeTe and the related thermoelectrics.
url https://doi.org/10.1038/s41524-021-00588-4
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AT janembs softmodedynamicsintheferroelectricphasetransitionofgete
AT yanzhongpei softmodedynamicsintheferroelectricphasetransitionofgete
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AT yuechen softmodedynamicsintheferroelectricphasetransitionofgete
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