AQUA: a collection of H2O equations of state for planetary models

Haldemann, Jonas; Alibert, Yann; Mordasini, Christoph; Benz, Willy (2020). AQUA: a collection of H2O equations of state for planetary models. Astronomy and astrophysics, 643(A105), A105. EDP Sciences 10.1051/0004-6361/202038367

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Context. Water is one of the key chemical elements in planetary structure modelling. Due to its complex phase diagram, equations of state often only cover parts of the pressure-temperature space needed in planetary modelling.

Aims. We aim to construct an equation of state of H2O spanning a very wide range, from 0.1 Pa to 400 TPa and 150 to 105 K, which can be used to model the interior of planets.

Methods. We combined equations of state valid in localised regions to form a continuous equation of state spanning over the above-mentioned pressure and temperature range.

Results. We provide tabulated values for the most important thermodynamic quantities: the density, adiabatic temperature gradient, entropy, internal energy, and bulk speed of sound of water over this pressure and temperature range. For better usability we also calculated density-temperature and density-internal energy grids. We discuss further the impact of this equation of state on the mass radius relation of planets compared to other popular equations of state like ANEOS and QEOS.

Conclusions. AQUA is a combination of existing equations of state useful for planetary models. We show that, in most regions, AQUA is a thermodynamic consistent description of water. At pressures above 10 GPa, AQUA predicts systematic larger densities than ANEOS or QEOS. This is a feature that was already present in a previously proposed equation of state, which is the main underlying equation of this work. We show that the choice of the equation of state can have a large impact on the mass-radius relation, which highlights the importance of future developments in the field of equations of state and regarding experimental data of water at high pressures.

Item Type:	Journal Article (Original Article)
Division/Institute:	10 Strategic Research Centers > Center for Space and Habitability (CSH) 08 Faculty of Science > Physics Institute > Space Research and Planetary Sciences 08 Faculty of Science > Physics Institute > Space Research and Planetary Sciences > Theoretical Astrophysics and Planetary Science (TAPS)
UniBE Contributor:	Haldemann, Jonas, Alibert, Yann Daniel Pierre, Mordasini, Christoph, Benz, Willy
Subjects:	500 Science > 520 Astronomy 600 Technology > 620 Engineering 500 Science > 530 Physics
ISSN:	0004-6361
Publisher:	EDP Sciences
Language:	English
Submitter:	Dr. Jonas Haldemann
Date Deposited:	11 Feb 2021 08:09
Last Modified:	05 Dec 2022 15:46
Publisher DOI:	10.1051/0004-6361/202038367
ArXiv ID:	2009.10098
BORIS DOI:	10.48350/151953
URI:	https://boris.unibe.ch/id/eprint/151953

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