Тип публикации: статья из журнала

Год издания: 2023

Идентификатор DOI: 10.1093/mnras/stac3168

Ключевые слова: hydrodynamics, planets and satellites: atmospheres, planets and satellites: physical evolution, planets and satellites: terrestrial planets, ultraviolet: planetary systems

Аннотация: The initial abundance of radioactive heat producing isotopes in the interior of terrestrial planets are important drivers of its thermal evolution and the related tectonics and possible evolution to an Earth-like habitat. The moderately volatile element K can be outgassed from a magma ocean into H2-dominated primordial atmospheres Показать полностьюof protoplanets with assumed masses between 0.55 and 1.0MEarth at the time when the gas disc evaporated. We estimate this outgassing and let these planets grow through impacts of depleted and non-depleted material that resembles the same 40K abundance of average carbonaceous chondrites until the growing protoplanets reach 1.0MEarth. We examine different atmospheric compositions and, as a function of pressure and temperature, calculate the proportion of K by Gibbs Free Energy minimization using the GGCHEM code. We find that for H2-envelopes and for magma ocean surface temperatures that are ≥ 2500 K, no K condensates are thermally stable, so that outgassed 40K can populate the atmosphere to a great extent. However, due to magma ocean turnover time and the limited diffusion of 40K into the upper atmosphere, from the entire 40K in the magma ocean only a fraction may be available for escaping into space. The escape rates of the primordial atmospheres and the dragged 40K are simulated for different stellar EUV activities with a multispecies hydrodynamic upper atmosphere evolution model. Our results show that one can expect that different initial abundances of heat producing elements will result in different thermal and tectonic histories of terrestrial planets and their habitability conditions.

Журнал: Monthly Notices of the Royal Astronomical Society

Выпуск журнала: Т. 518, № 3

Номера страниц: 3703-3721

ISSN журнала: 00358711

Издатель: John Wiley & Sons

• Erkaev N.V. (Institute of Laser Physics, Siberian Branch of the Russian Academy of Sciences)
• Scherf M. (Space Research Institute, Austrian Academy of Sciences)
• Herbort O. (Space Research Institute, Austrian Academy of Sciences)
• Lammer H. (Space Research Institute, Austrian Academy of Sciences)
• Odert P. (Institute of Physics/IGAM, University of Graz)
• Kubyshkina D. (Space Research Institute, Austrian Academy of Sciences)
• Leitzinger M. (Institute of Physics/IGAM, University of Graz)
• Woitke P. (Space Research Institute, Austrian Academy of Sciences)
• O'Neill C. (Planetary Research Centre, Department of Earth and Environmental Science, Macquarie University,)

• Ядро РИНЦ (eLIBRARY.RU)