Durham: Revealing the Atmospheric Impact of Planetary Collisions
Posted: Thu Jul 16, 2020 4:57 pm
Revealing the Atmospheric Impact of Planetary Collisions
Durham University, UK | 2020 Jul 14
Atmospheric Erosion by Giant Impacts onto Terrestrial Planets ~ J. A. Kegerreis et al
Durham University, UK | 2020 Jul 14
Giant impacts have a wide range of consequences for young planets and their atmospheres, according to research led by our scientists.The Atmospheric Impact of Gigantic Planetary Collisions ~ Durham UniversityClick to play embedded YouTube video.
These huge collisions dominate the late stages of planet formation.
Using 3D supercomputer simulations the researchers have found a way of revealing how much atmosphere is lost during these events.
Their simulations show how Earth-like planets with thin atmospheres might have evolved in an early solar system depending on how they were impacted by other objects.
They ran more than 100 detailed simulations of different giant impacts, altering the speed and angle of the impact on each occasion.
They found that grazing impacts – like the one thought to have formed our Moon 4.5 billion years ago – led to much less atmospheric loss than a direct hit.
Head on collisions and higher speeds led to much greater erosion, sometimes obliterating the atmosphere completely along with some of the mantle, the layer that sits under a planet’s crust. ...
Atmospheric Erosion by Giant Impacts onto Terrestrial Planets ~ J. A. Kegerreis et al
- Astrophysical Journal 897(2):161 (2020 Jul 10) DOI: 10.3847/1538-4357/ab9810
- arXiv.org > astro-ph > arXiv:2002.02977 > 07 Feb 2020 (v1), 09 Jul 2020 (v2)