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Real-time microscopy of the relaxation of a glass

Physics

Real-time microscopy of the relaxation of a glass

M. Ruiz-ruiz, A. Vila-costa, et al.

This groundbreaking research by Marta Ruiz-Ruiz and colleagues offers new insights into the relaxation dynamics of stable glasses transitioning into their supercooled liquid state. Utilizing real-time atomic force microscopy, the study visualizes the complex behaviors of mobility in liquids, potentially impacting our understanding of the glass transition in various systems.

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~3 min • Beginner • English
Abstract
The understanding of the dynamics of a glass above its devitrification temperature remains incomplete. Here, we build a spatio-temporal map of the relaxation dynamics of a highly stable glass into its supercooled liquid using real-time atomic force microscopy imaging. This methodology enables direct visualization of the progression of the liquid phase and clarifies and quantifies the presence of localized fast mobility regions separated by giant length scales. Our data establish a clear correlation between dynamic length and time scales in glasses. This approach may also be applicable to unveil the microscopic structure and dynamics of other glass-forming systems with much shorter length and time scales, including liquid-cooled glasses.
Publisher
Nature Physics
Published On
Oct 01, 2023
Authors
Marta Ruiz-Ruiz, Ana Vila-Costa, Tapas Bar, Cristian Rodríguez-Tinoco, Marta Gonzalez-Silveira, Jose Antonio Plaza, Jorge Alcalá, Jordi Fraxedas, Javier Rodriguez-Viejo
Tags
glass transition
supercooled liquid
atomic force microscopy
relaxation dynamics
localized mobility
dynamic length scales

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