Equation of state for solar near-surface convection

Bibcode
2015AnGeo..33..703V
DOI
10.5194/angeo-33-703-2015
Khomenko, E.; Vitas, N.
Bibliographical reference

Annales Geophysicae, Volume 33, Issue 6, 2015, pp.703-709

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6
2015
Journal
Annales Geophysicae
Number of authors
2
IAC number of authors
2
Citations
4
Refereed citations
3
Description
Numerical 3-D radiative hydrodynamical simulations are the main tool for the analysis of the interface between the solar convection zone and the photosphere. The equation of state is one of the necessary ingredients of these simulations. We compare two equations of state that are commonly used, one ideal and one nonideal, and quantify their differences. Using a numerical code we explore how these differences propagate with time in a 2-D convection simulation. We show that the runs with different equations of state (EOSs) and everything else identical relax to statistically steady states in which the mean temperature (in the range of the continuum optical depths typical for the solar photosphere) differs by less than 0.2%. For most applications this difference may be considered insignificant.
Related projects
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Solar and Stellar Magnetism
Magnetic fields are at the base of star formation and stellar structure and evolution. When stars are born, magnetic fields brake the rotation during the collapse of the mollecular cloud. In the end of the life of a star, magnetic fields can play a key role in the form of the strong winds that lead to the last stages of stellar evolution. During
Tobías
Felipe García
In progress
Type
Refereed
Solar Physics (FS)

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