控制金属玻璃中乔哈里-戈尔茨坦弛豫的结构重排。

Structural rearrangements governing Johari-Goldstein relaxations in metallic glasses.

作者信息

Yu Hai-Bin, Richert Ranko, Samwer Konrad

机构信息

Wuhan National High Magnetic Field Center and School of Physics, Huazhong University of Science and Technology, Wuhan 430074 Hubei, China.

School of Molecular Sciences, Arizona State University, Tempe, AZ 85287, USA.

出版信息

Sci Adv. 2017 Nov 17;3(11):e1701577. doi: 10.1126/sciadv.1701577. eCollection 2017 Nov.

DOI:10.1126/sciadv.1701577

PMID:29159283

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5693560/

Abstract

The Johari-Goldstein secondary (β) relaxations are an intrinsic feature of supercooled liquids and glasses. They are crucial to many properties of glassy materials, but the underlying mechanisms are still not established. In a model metallic glass, we study the atomic rearrangements by molecular dynamics simulations at time scales of up to microseconds. We find that the distributions of single-particle displacements exhibit multiple peaks, whose positions quantitatively match the pair distribution function. These are identified as the structural signature of cooperative string-like excitations. Furthermore, the most probable time of the string-like motions coincides with the β-relaxation time as probed by dynamical mechanical simulations over a wide temperature range and is consistent with a theoretical model. Our results provide insights into the long-standing puzzle regarding the structural origin of β relaxations in glassy metallic materials.

摘要

乔哈里-戈尔茨坦二级（β）弛豫是过冷液体和玻璃的固有特性。它们对玻璃态材料的许多性质至关重要，但其潜在机制仍未明确。在一种模型金属玻璃中，我们通过分子动力学模拟在长达微秒的时间尺度上研究原子重排。我们发现单粒子位移的分布呈现多个峰值，其位置在定量上与对分布函数相匹配。这些被确定为协同类弦激发的结构特征。此外，类弦运动的最可能时间与在很宽温度范围内通过动态力学模拟探测到的β弛豫时间一致，并且与一个理论模型相符。我们的结果为关于玻璃态金属材料中β弛豫的结构起源这一长期存在的谜题提供了见解。

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控制金属玻璃中乔哈里-戈尔茨坦弛豫的结构重排。

Structural rearrangements governing Johari-Goldstein relaxations in metallic glasses.

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