SIMBAD references

2016A&A...586A..75S - Astronomy and Astrophysics, volume 586A, 75-75 (2016/2-1)

Simulating the escaping atmospheres of hot gas planets in the solar neighborhood.


Abstract (from CDS):

Absorption of high-energy radiation in planetary thermospheres is generally believed to lead to the formation of planetary winds. The resulting mass-loss rates can affect the evolution, particularly of small gas planets. We present 1D, spherically symmetric hydrodynamic simulations of the escaping atmospheres of 18 hot gas planets in the solar neighborhood. Our sample only includes strongly irradiated planets, whose expanded atmospheres may be detectable via transit spectroscopy using current instrumentation. The simulations were performed with the PLUTO-CLOUDY interface, which couples a detailed photoionization and plasma simulation code with a general MHD code. We study the thermospheric escape and derive improved estimates for the planetary mass-loss rates. Our simulations reproduce the temperature-pressure profile measured via sodium D absorption in HD189733b, but show still unexplained differences in the case of HD209458b. In contrast to general assumptions, we find that the gravitationally more tightly bound thermospheres of massive and compact planets, such as HAT-P-2b are hydrodynamically stable. Compact planets dispose of the radiative energy input through hydrogen Lyα and free-free emission. Radiative cooling is also important in HD189733b, but it decreases toward smaller planets like GJ436b. Computing the planetary Lyα absorption and emission signals from the simulations, we find that the strong and cool winds of smaller planets mainly cause strong Lyα absorption but little emission. Compact and massive planets with hot, stable thermospheres cause small absorption signals but are strong Lyα emitters, possibly detectable with the current instrumentation. The absorption and emission signals provide a possible distinction between these two classes of thermospheres in hot gas planets. According to our results, WASP-80 and GJ 3470 are currently the most promising targets for observational follow-up aimed at detecting atmospheric Lyα absorption signals.

Abstract Copyright:

Journal keyword(s): methods: numerical - hydrodynamics - radiation mechanisms: non-thermal - planets and satellites: atmospheres - planets and satellites: dynamical evolution and stability

VizieR on-line data: <Available at CDS (J/A+A/586/A75): stars.dat 55cncb.dat corot2b.dat gj1214b.dat gj3470b.dat gj436b.dat hatp11b.dat hd149026.dat hd189733.dat hd209458.dat hd97658b.dat wasp10b.dat wasp12b.dat wasp43b.dat wasp77b.dat wasp80b.dat wasp8b.dat>

Simbad objects: 46

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