Litcius/Paper detail

Temperature dependence of the Kirkwood correlation factor and linear dielectric constant of simple isotropic polar fluids

Pierre-Michel Déjardin, Florian Pabst, Yann Cornaton, Andreas Helbling, Thomas Blochowicz

2022Physical review. E28 citationsDOI

Abstract

The theory developed in an accompanying paper [Déjardin, Phys. Rev. E 105, 024109 (2022)10.1103/PhysRevE.105.024109] is used to compute the Kirkwood correlation factor of simple polar fluids of different nature. From this calculation, the theoretical static permittivity is readily obtained, which is compared with experimental values. This is accomplished by fitting only one parameter accounting for induction or dispersion forces and torques, which is necessarily connected with the individual molecular polarizability but not explicitly related to the physical properties due to the nonadditivity of such energies. Excellent agreement between theoretical and experimental static permittivities is obtained over a very broad temperature range for a number of associated and nonassociated liquids. Finally, limitations of the present theory are given.

Topics & Concepts

PolarizabilityPolarIsotropyDielectricSimple (philosophy)PermittivityDielectric permittivityThermodynamicsRange (aeronautics)Dispersion (optics)Structure factorPhysicsConstant (computer programming)Statistical physicsMaterials scienceCondensed matter physicsFrequency dependenceCorrelationMathematical analysisMeasure (data warehouse)ChemistryMathematicsCorrelation function (quantum field theory)Compressibility factorAtmospheric temperature rangeDielectric materials and actuatorsElectrostatics and Colloid InteractionsMaterial Dynamics and Properties