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RESEARCH PRODUCT

Heterogeneous shear elasticity of glasses: the origin of the boson peak

Giancarlo RuoccoAndrea FratalocchiAlessia MarruzzoWalter SchirmacherWalter Schirmacher

subject

Shear elasticityPhysicsBulk modulusMultidisciplinaryCondensed matter physicsElasticity (physics)BioinformaticsArticleMicroscopic scalesymbols.namesakeShear (geology)Density of statessymbolsAcoustic attenuationDebye

description

The local elasticity of glasses is known to be inhomogeneous on a microscopic scale compared to that of crystalline materials. Their vibrational spectrum strongly deviates from that expected from Debye's elasticity theory: The density of states deviates from Debye's law, the sound velocity shows a negative dispersion in the boson-peak frequency regime and there is a strong increase of the sound attenuation near the boson-peak frequency. By comparing a mean-field theory of shear-elastic heterogeneity with a large-scale simulation of a soft-sphere glass we demonstrate that the observed anomalies in glasses are caused by elastic heterogeneity. By observing that the macroscopic bulk modulus is frequency independent we show that the boson-peak-related vibrational anomalies are predominantly due to the spatially fluctuating microscopic shear stresses. It is demonstrated that the boson-peak arises from the steep increase of the sound attenuation at a frequency which marks the transition from wave-like excitations to disorder-dominated ones.

yearjournalcountryeditionlanguage
2013-03-08Scientific Reports
https://doi.org/10.1038/srep01407