Isochoric Specific Heat in the Dual Model of Liquids

We continue in this paper to illustrate the implications of the dual model of liquids (DML) by deriving the expression for the isochoric specific heat as a function of the collective degree of freedom available at a given temperature and analyzing its dependence on temperature. Two main tasks have b...

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Bibliographic Details
Published in:Liquids
Main Author: Fabio Peluso
Format: Text
Language:English
Published: Multidisciplinary Digital Publishing Institute 2021
Subjects:
liquid model
phonons in liquids
instantaneous normal modes
mesoscopic model of liquids
phonon–particle interaction
specific heat
DML
Online Access:https://doi.org/10.3390/liquids1010007
Description
Summary:We continue in this paper to illustrate the implications of the dual model of liquids (DML) by deriving the expression for the isochoric specific heat as a function of the collective degree of freedom available at a given temperature and analyzing its dependence on temperature. Two main tasks have been accomplished. First, we show that the expression obtained for the isochoric specific heat in the DML is in line with the experimental results. Second, the expression has been compared with the analogous one obtained in another theoretical dual model of the liquid state, the phonon theory of liquid thermodynamics. This comparison allows providing interesting insights about the number of collective degrees of freedom available in a liquid and the value of the isobaric thermal expansion coefficient, two quantities that are related to each other in this framework.

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