Litcius/Paper detail

Low-frequency vibrations of jammed packings in large spatial dimensions

Masanari Shimada, Hideyuki Mizuno, Ludovic Berthier, Atsushi Ikeda

2020Physical review. E41 citationsDOIOpen Access PDF

Abstract

Amorphous packings prepared in the vicinity of the jamming transition play a central role in theoretical studies of the vibrational spectrum of glasses. Two mean-field theories predict that the vibrational density of states g(ω) obeys a characteristic power law, g(ω)∼ω^{2}, called the non-Debye scaling in the low-frequency region. Numerical studies have, however, reported that this scaling breaks down at low frequencies, due to finite-dimensional effects. In this study, we prepare amorphous packings of up to 128000 particles in spatial dimensions from d=3 to d=9 to characterize the range of validity of the non-Debye scaling. Our numerical results suggest that the non-Debye scaling is obeyed down to a frequency that gradually decreases as d increases, and possibly vanishes for large d, in agreement with mean-field predictions. We also show that the prestress is an efficient control parameter to quantitatively compare packings across different spatial dimensions.

Topics & Concepts

ScalingDebyeOmegaPhysicsAmorphous solidCondensed matter physicsScaling lawRange (aeronautics)Debye lengthField (mathematics)Statistical physicsMaterials scienceQuantum mechanicsIonMathematicsGeometryChemistryCrystallographyPure mathematicsComposite materialMaterial Dynamics and PropertiesGlass properties and applicationsTheoretical and Computational Physics