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Ripples in the bottom of the potential energy landscape of metallic glass

Leo Zella, Ji‐Won Moon, T. Egami

2024Nature Communications28 citationsDOIOpen Access PDF

Abstract

In the absence of periodicity, the structure of glass is ill-defined, and a large number of structural states are found at similar energy levels. However, little is known about how these states are connected to each other in the potential energy landscape. We simulate mechanical relaxation by molecular dynamics for a prototypical [Formula: see text] metallic glass and follow the mechanical energy loss of each atom to track the change in the state. We find that the energy barriers separating these states are remarkably low, only of the order of 1 meV, implying that even quantum fluctuations can overcome these potential energy barriers. Our observation of numerous small ripples in the bottom of the potential energy landscape puts many assumptions regarding the thermodynamic states of metallic glasses into question and suggests that metallic glasses are not totally frozen at the local atomic level.

Topics & Concepts

Relaxation (psychology)Energy (signal processing)Atom (system on chip)Energy landscapeMetalMaterials sciencePhysicsThermodynamicsComputer scienceQuantum mechanicsMetallurgyPsychologySocial psychologyEmbedded systemMaterial Dynamics and PropertiesMetallic Glasses and Amorphous AlloysTheoretical and Computational Physics
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