Unveiling hidden particle-level defects in glasses

粒子(生态学) 计算机科学 生物 生态学
作者
Yuan‐Chao Hu,Hajime Tanaka
出处
期刊:Nature Communications [Nature Portfolio]
卷期号:16 (1): 5321-5321
标识
DOI:10.1038/s41467-025-60781-7
摘要

In crystals, defects are well-defined and crucial to their mechanical properties. In contrast, the structural disorder in glasses makes it challenging to directly identify defects at the particle level. However, low-frequency quasi-localised modes (QLMs) in glasses provide valuable insights, acting as mechanical defects associated with shear transformation zones and soft spots. Using molecular dynamics simulations of two-dimensional glasses, we identify a particle-level defect responsible for generating QLMs. The primary QLM originates from a "key-core" square of four particles vibrating in a two-in, two-out pattern, interpretable as a microscopic Eshelby inclusion. The motion of these particles induces nearby volumetric and far-field shear deformations, forming a characteristic four-leaf pattern. Despite the structural isotropy of the glass, these QLMs introduce notable mechanical anisotropy, particularly in nano-sized glasses. Crucially, pinning the key-core particles dramatically reduces shear modulus anisotropy, confirming their role as "localised particle-level defects." This discovery deepens our understanding of glass defects and offers valuable insights for nanoscale glass applications.

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