2018ApJ...866L..18K -
Astrophys. J., 866, L18-L18 (2018/October-3)
Overcoming the limitations of the energy-limited approximation for planet atmospheric escape.
KUBYSHKINA D., FOSSATI L., ERKAEV N.V., CUBILLOS P.E., JOHNSTONE C.P., KISLYAKOVA K.G., LAMMER H., LENDL M. and ODERT P.
Abstract (from CDS):
Studies of planetary atmospheric composition, variability, and evolution require appropriate theoretical and numerical tools to estimate key atmospheric parameters, among which the mass-loss rate is often the most important. In evolutionary studies, it is common to use the energy-limited formula, which is attractive for its simplicity but ignores important physical effects and can be inaccurate in many cases. To overcome this problem, we consider a recently developed grid of about 7000 one-dimensional upper-atmosphere hydrodynamic models computed for a wide range of planets with hydrogen-dominated atmospheres from which we extract the mass-loss rates. The grid boundaries are [1:39] M⊕ in planetary mass, [1:10] R⊕ in planetary radius, [300:2000] K in equilibrium temperature, [0.4:1.3] M☉ in host star's mass, [0.002:1.3] au in orbital separation, and about [1026:5x1030] erg s–1 in stellar X-ray and extreme ultraviolet luminosity. We then derive an analytical expression for the atmospheric mass-loss rates based on a fit to the values obtained from the grid. The expression provides the mass-loss rates as a function of planetary mass, planetary radius, orbital separation, and incident stellar high-energy flux. We show that this expression is a significant improvement to the energy-limited approximation for a wide range of planets. The analytical expression presented here enables significantly more accurate planetary evolution computations without increasing computing time.
Abstract Copyright:
© 2018. The American Astronomical Society. All rights reserved.
Journal keyword(s):
planets and satellites: atmospheres - planets and satellites: gaseous planets - planets and satellites: general - planets and satellites: physical evolution
Simbad objects:
9
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