An extended thermal pressure equation of state for sodium fluoride

Lewis A. Clough; Nicholas P. Funnell; Christopher J. Ridley; Dominik Daisenberger; Joseph A. Hriljac; Matic Lozinšek; Ross J. Angel; Simon Parsons

doi:10.1107/S1600576725000330

An extended thermal pressure equation of state for sodium fluoride

Lewis A. Clough, Nicholas P. Funnell, Christopher J. Ridley, Dominik Daisenberger, Joseph A. Hriljac, Matic Lozinšek, Ross J. Angel, Simon Parsons

Materials Engineering

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

The effect of pressure and temperature on the unit-cell volume of NaF has been measured by X-ray powder diffraction at ambient pressure between 12 and 300 K and neutron powder diffraction up to 5 GPa between 140 and 350 K. These data have been combined with high-pressure volume data at 300 and 950 K to 25 GPa and adiabatic bulk modulus data to 650 K to define an equation of state for NaF relating molar volume to both temperature and pressure. The model combines a fourth-order Birch-Murnaghan equation of state at 295 K with a Mie-Grüneisen-Debye model for thermal pressure. The parameters of the model set at 295 K and ambient pressure are as follows: reference unit-cell volume V0 = 14.9724 (5) cm³ mol^-1, isothermal bulk modulus K0T = 46.79 (14) GPa, first derivative of the bulk modulus K′0T = 5.72 (12), second derivative of the bulk modulus K′_0T = -0.43 (4) GPa^-1, Debye temperature TMGD = 459 (3) K, and Anderson Grüneisen parameters γ0 = 1.547 (11) and q = 0.94 (18).

Original language	English
Pages (from-to)	227-232
Number of pages	6
Journal	Journal of Applied Crystallography
Volume	58
Issue number	Pt 1
DOIs	https://doi.org/10.1107/S1600576725000330
State	Published - Feb 1 2025

Keywords

bulk modulus
equation of state
sodium fluoride
thermal expansion

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10.1107/S1600576725000330

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title = "An extended thermal pressure equation of state for sodium fluoride",

abstract = "The effect of pressure and temperature on the unit-cell volume of NaF has been measured by X-ray powder diffraction at ambient pressure between 12 and 300 K and neutron powder diffraction up to 5 GPa between 140 and 350 K. These data have been combined with high-pressure volume data at 300 and 950 K to 25 GPa and adiabatic bulk modulus data to 650 K to define an equation of state for NaF relating molar volume to both temperature and pressure. The model combines a fourth-order Birch-Murnaghan equation of state at 295 K with a Mie-Gr{\"u}neisen-Debye model for thermal pressure. The parameters of the model set at 295 K and ambient pressure are as follows: reference unit-cell volume V0 = 14.9724 (5) cm3 mol-1, isothermal bulk modulus K0T = 46.79 (14) GPa, first derivative of the bulk modulus K′0T = 5.72 (12), second derivative of the bulk modulus K′0T = -0.43 (4) GPa-1, Debye temperature TMGD = 459 (3) K, and Anderson Gr{\"u}neisen parameters γ0 = 1.547 (11) and q = 0.94 (18).",

keywords = "bulk modulus, equation of state, sodium fluoride, thermal expansion",

author = "Clough, {Lewis A.} and Funnell, {Nicholas P.} and Ridley, {Christopher J.} and Dominik Daisenberger and Hriljac, {Joseph A.} and Matic Lozin{\v s}ek and Angel, {Ross J.} and Simon Parsons",

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doi = "10.1107/S1600576725000330",

language = "English",

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T1 - An extended thermal pressure equation of state for sodium fluoride

AU - Clough, Lewis A.

AU - Funnell, Nicholas P.

AU - Ridley, Christopher J.

AU - Daisenberger, Dominik

AU - Hriljac, Joseph A.

AU - Lozinšek, Matic

AU - Angel, Ross J.

AU - Parsons, Simon

N1 - Publisher Copyright: © Lewis A. Clough et al. 2025.

PY - 2025/2/1

Y1 - 2025/2/1

N2 - The effect of pressure and temperature on the unit-cell volume of NaF has been measured by X-ray powder diffraction at ambient pressure between 12 and 300 K and neutron powder diffraction up to 5 GPa between 140 and 350 K. These data have been combined with high-pressure volume data at 300 and 950 K to 25 GPa and adiabatic bulk modulus data to 650 K to define an equation of state for NaF relating molar volume to both temperature and pressure. The model combines a fourth-order Birch-Murnaghan equation of state at 295 K with a Mie-Grüneisen-Debye model for thermal pressure. The parameters of the model set at 295 K and ambient pressure are as follows: reference unit-cell volume V0 = 14.9724 (5) cm3 mol-1, isothermal bulk modulus K0T = 46.79 (14) GPa, first derivative of the bulk modulus K′0T = 5.72 (12), second derivative of the bulk modulus K′0T = -0.43 (4) GPa-1, Debye temperature TMGD = 459 (3) K, and Anderson Grüneisen parameters γ0 = 1.547 (11) and q = 0.94 (18).

AB - The effect of pressure and temperature on the unit-cell volume of NaF has been measured by X-ray powder diffraction at ambient pressure between 12 and 300 K and neutron powder diffraction up to 5 GPa between 140 and 350 K. These data have been combined with high-pressure volume data at 300 and 950 K to 25 GPa and adiabatic bulk modulus data to 650 K to define an equation of state for NaF relating molar volume to both temperature and pressure. The model combines a fourth-order Birch-Murnaghan equation of state at 295 K with a Mie-Grüneisen-Debye model for thermal pressure. The parameters of the model set at 295 K and ambient pressure are as follows: reference unit-cell volume V0 = 14.9724 (5) cm3 mol-1, isothermal bulk modulus K0T = 46.79 (14) GPa, first derivative of the bulk modulus K′0T = 5.72 (12), second derivative of the bulk modulus K′0T = -0.43 (4) GPa-1, Debye temperature TMGD = 459 (3) K, and Anderson Grüneisen parameters γ0 = 1.547 (11) and q = 0.94 (18).

KW - bulk modulus

KW - equation of state

KW - sodium fluoride

KW - thermal expansion

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ER -

An extended thermal pressure equation of state for sodium fluoride

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Keywords

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