Please use this identifier to cite or link to this item: http://repositorio.ufla.br/jspui/handle/1/50502
Title: Amorphous solids as fuzzy crystals: a Debye-like theory of low-temperature specific heat
Keywords: Noncommutative geometry
Amorphous materials
Boson peak
Low-temperature vibrations in solids
Issue Date: May-2022
Publisher: Elsevier
Citation: BUFALO, TATIANA C.; BUFALO, R.; TUREANU, A. Amorphous solids as fuzzy crystals: a Debye-like theory of low-temperature specific heat. Annals of physics, [S.l.], v. 440, p. 1-22, May 2022. DOI: 10.1016/j.aop.2022.168835.
Abstract: The formulation of a fundamental description of amorphous solids is a standing challenge in condensed matter physics. We construct a quantum mechanical model of isotropic amorphous solids as fuzzy crystals and establish an analytical theory of vibrations for glasses at low temperature. Our theoretical framework relies on the basic principle that the disorder in a glass is similar to the disorder in a classical fluid, while the latter is mathematically encoded by noncommutative coordinates in the Lagrange description of fluid mechanics. We find that the density of states in the acoustic branches flattens significantly, leading naturally to a boson peak in the specific heat as a manifestation of a van Hove singularity. The model is valid in the same range as Debye’s theory, namely up to circa 10% of the Debye temperature. Within this range, we find an excellent agreement between the theoretical predictions and the experimental data for two typical glasses, a-GeO and Ba8Ga16Sn30-clathrate. Our model supports the conceptual understanding of the nature of the boson peak in glasses as a manifestation of the liquid-like disorder. At the same time, it provides a novel, mathematically simple framework for a unitary treatment of thermodynamical and transport properties of amorphous materials and a solid background for inserting further elements of complexity specific to particular glasses.
URI: http://repositorio.ufla.br/jspui/handle/1/50502
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