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How coherence is governing diffuson heat transfer in amorphous solids

Thermal transport in amorphous materials has remained one of the fundamental questions in solid state physics while involving a very large field of applications. Using a heat conduction theory incorporating coherence, we demonstrate that the strong phase correlation between local and non-propagating...

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Bibliographic Details
Published in:npj computational materials 2022-04, Vol.8
Main Authors: Zhang, Zhongwei, Guo, Yangyu, Bescond, Marc, Chen, Jie, Nomura, Masahiro, Volz, Sebastian
Format: Article
Language:English
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Summary:Thermal transport in amorphous materials has remained one of the fundamental questions in solid state physics while involving a very large field of applications. Using a heat conduction theory incorporating coherence, we demonstrate that the strong phase correlation between local and non-propagating modes, commonly named diffusons in the terminology of amorphous systems, triggers the conduction of heat. By treating the thermal vibrations as collective excitations, the significant contribution of diffusons, predominantly relying on coherence, further reveals interesting temperature and length dependences of thermal conductivity. The propagation length of diffuson clusters is found to reach the micron, overpassing the one of propagons. The explored wavelike behavior of diffusons uncovers the unsolved physical picture of mode correlation in prevailing models and further provides an interpretation of their ability to transport heat. This work introduces a framework for understanding thermal vibrations and transport in amorphous materials, as well as an unexpected insight into the wave nature of thermal vibrations.
ISSN:2057-3960
2057-3960
DOI:10.1038/s41524-022-00776-w