http://arxiv.org/abs/2007.04321
We present a new scaling law to predict the loss of atmosphere from planetary collisions for any speed, angle, impactor mass, target mass, and body compositions, in the regime of giant impacts onto broadly terrestrial planets with relatively thin atmospheres. To this end, we examine the erosion caused by a wide range of impacts, using 3D smoothed particle hydrodynamics simulations with sufficiently high resolution to directly model the fate of low-mass atmospheres. Different collision scenarios lead to extremely different behaviours and consequences for the planets. In spite of this complexity, the fraction of lost atmosphere is fitted well by a power law. Scaling is independent of the system mass for a constant impactor mass ratio. We find no evident departure from the trend at the extremes of the parameters explored. The scaling law can readily be incorporated into models of planet formation.
J. Kegerreis, V. Eke, D. Catling, et. al.
Fri, 10 Jul 20
-77/76
Comments: Submitted to ApJ. 12 pages, 5 figures
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