Atmosphere (Feb 2023)

Molecular Kinetic Simulations of Transient and Steady Wave Propagation into a Planet’s Exosphere

  • Lucia Tian,
  • Robert E. Johnson,
  • Orenthal J. Tucker,
  • Adam K. Woodson,
  • Hayley N. Williamson,
  • Shane R. Carberry Mogan

DOI
https://doi.org/10.3390/atmos14030441
Journal volume & issue
Vol. 14, no. 3
p. 441

Abstract

Read online

The vertical propagation of wave energy into a planet’s exosphere, a process that affects atmospheric evolution, is calculated here using 1D molecular kinetic simulations. Effects sensitive to molecular interactions are examined by comparing simulation results to solutions of linear fluid models for steady wave activity using parameters associated with Mars’ upper atmosphere. In addition to correctly describing the wave behavior in the exobase region, these simulations directly yield nonlinear effects such as atmospheric heating. They also readily include the transient behavior due to the onset and decay of waves propagating into the rarefied region of a planet’s atmosphere. This is a first step in understanding the effects of variable wave activity in the region where the atmosphere evolves from collisional to collisionless.

Keywords