Litcius/Paper detail

Rigorous expressions for thermodynamic properties in the <i>NpH</i> ensemble

Philipp Ströker, Karsten Meier

2022Physical review. E16 citationsDOI

Abstract

Molecular expressions for thermodynamic properties of fluids and derivatives of the entropy up to third order in the isoenthalpic-isobaric ensemble are derived by using the methodology developed by Lustig for the microcanonical and canonical ensembles [J. Chem. Phys. 100, 3048 (1994)JCPSA60021-960610.1063/1.466446; Mol. Phys. 110, 3041 (2012)MOPHAM0026-897610.1080/00268976.2012.695032]. They are expressed in a systematic way by phase-space functions, which represent derivatives of the phase-space volume with respect to enthalpy and pressure. The expressions for thermodynamic properties contain only ensemble averages of combinations of the kinetic energy and volume of the system. Thus, the calculation of thermodynamic properties in the isoenthalpic-isobaric ensemble does not require volume derivatives of the potential energy. This is particularly advantageous in Monte Carlo simulations when the interactions between molecules are described by very accurate ab initio pair and nonadditive three-body potentials. The derived expressions are validated by Monte Carlo simulations for the simple Lennard-Jones model fluid as a test case.

Topics & Concepts

Microcanonical ensembleCanonical ensembleMonte Carlo methodIsobaric processThermodynamicsStatistical physicsEnthalpyStatistical ensembleGrand canonical ensembleInternal energyPhysicsKinetic energyThermodynamic betaPhase spaceThermodynamic processMaterial propertiesClassical mechanicsThermodynamic databases for pure substancesMathematicsStatisticsPhase Equilibria and ThermodynamicsMaterial Dynamics and PropertiesThermodynamic properties of mixtures