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Equation of state of Iridium: from insight of ensemble theory

Jun Han, Liqun Shi, Ning Wang, Hui-Fen Zhang, Shuming Peng

2022Journal of Physics Condensed Matter10 citationsDOI

Abstract

The equations of state (EOS) of Iridium are, for the first time, obtained by solving the high-dimension integral of partition function based on a recently developed approach of ultrahigh efficiency and precision without any artificial parameter, and the deviation of 0.25% and 1.52% from the experiments was achieved respectively for the isobaric EOS in a temperature range of 300 K-2500 K and the isothermal EOS at 300 K up to 300 GPa. Specific comparisons show that the deviation of EOS based on harmonic approximation even including anharmonic effect, manifests worse than ours by several times or even one order of magnitude, indicating that ensemble theory is the very approach to understand the thermodynamic properties of condensed matter.

Topics & Concepts

Isobaric processAnharmonicityThermodynamicsIsothermal processPartition function (quantum field theory)Equation of stateStandard deviationDimension (graph theory)Range (aeronautics)IridiumStatistical physicsPhysicsMathematicsMaterials scienceQuantum mechanicsChemistryStatisticsCatalysisPure mathematicsComposite materialBiochemistrynanoparticles nucleation surface interactionsAdvanced Chemical Physics StudiesAdvanced Thermoelectric Materials and Devices
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