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Auteur principal: Peluso, Fabio
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2501.12180
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author Peluso, Fabio
author_facet Peluso, Fabio
contents A microscopic vision is presented of a Dual Model of Liquids from a solid picture. Among the novelties of this model is that it provides quantitative expressions of various extensive thermophysical properties. The introduction of the statistical number of excited degrees of freedom (DoF) allows bypassing the problem of other dual models which are sometimes unable to correctly reproduce the expressions for those thermophysical quantities showing deviations due to the activation or deactivation of internal DoF. The interpretation of the relaxation times is given, their Order of Magnitude calculated and the way in which these times are involved in the different phases of the collective dynamics of liquids is discussed. A comparison is provided with results obtained in the frame of another phononic model of liquids, as well as with the predictions for the viscoelastic transition regions and with systems exhibiting kgap. In the last part of the paper, theoretical insights and experiments are suggested as potential directions for future research and development.
format Preprint
id arxiv_https___arxiv_org_abs_2501_12180
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Mesoscopic Collective Dynamics in Liquids and the Dual Model
Peluso, Fabio
Mesoscale and Nanoscale Physics
Soft Condensed Matter
Statistical Mechanics
A microscopic vision is presented of a Dual Model of Liquids from a solid picture. Among the novelties of this model is that it provides quantitative expressions of various extensive thermophysical properties. The introduction of the statistical number of excited degrees of freedom (DoF) allows bypassing the problem of other dual models which are sometimes unable to correctly reproduce the expressions for those thermophysical quantities showing deviations due to the activation or deactivation of internal DoF. The interpretation of the relaxation times is given, their Order of Magnitude calculated and the way in which these times are involved in the different phases of the collective dynamics of liquids is discussed. A comparison is provided with results obtained in the frame of another phononic model of liquids, as well as with the predictions for the viscoelastic transition regions and with systems exhibiting kgap. In the last part of the paper, theoretical insights and experiments are suggested as potential directions for future research and development.
title Mesoscopic Collective Dynamics in Liquids and the Dual Model
topic Mesoscale and Nanoscale Physics
Soft Condensed Matter
Statistical Mechanics
url https://arxiv.org/abs/2501.12180