Atmospheric Circulations of Hot Jupiters as Planetary Heat Engines

@article{Koll2017AtmosphericCO,
  title={Atmospheric Circulations of Hot Jupiters as Planetary Heat Engines},
  author={Daniel D. B. Koll and Thaddeus D. Komacek},
  journal={The Astrophysical Journal},
  year={2017},
  volume={853}
}
  • D. KollT. Komacek
  • Published 20 December 2017
  • Physics, Geology
  • The Astrophysical Journal
Because of their intense incident stellar irradiation and likely tidally locked spin states, hot Jupiters are expected to have wind speeds that approach or exceed the speed of sound. In this work, we develop a theory to explain the magnitude of these winds. We model hot Jupiters as planetary heat engines and show that hot Jupiters are always less efficient than an ideal Carnot engine. Next, we demonstrate that our predicted wind speeds match those from three-dimensional numerical simulations… 
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References

SHOWING 1-10 OF 48 REFERENCES

MAGNETIC DRAG ON HOT JUPITER ATMOSPHERIC WINDS

Hot Jupiters, with atmospheric temperatures T ≳ 1000 K, have residual thermal ionization levels sufficient for the interaction of ions with the planetary magnetic field to result in a sizable

THREE-DIMENSIONAL ATMOSPHERIC CIRCULATION OF WARM AND HOT JUPITERS: EFFECTS OF ORBITAL DISTANCE, ROTATION PERIOD, AND NONSYNCHRONOUS ROTATION

Efforts to characterize extrasolar giant planet (EGP) atmospheres have so far emphasized planets within 0.05 AU of their stars. Despite this focus, known EGPs populate a continuum of orbital

TEMPERATURE STRUCTURE AND ATMOSPHERIC CIRCULATION OF DRY TIDALLY LOCKED ROCKY EXOPLANETS

Theoretical models for the temperature structure and atmospheric circulation of dry, tidally locked rocky exoplanets with gray radiative transfer are presented and it is shown that rotation only has a strong effect on temperature structure if the atmosphere is hot or thin.

THREE-DIMENSIONAL MODELING OF HOT JUPITER ATMOSPHERIC FLOWS

We present a three-dimensional hot Jupiter model, extending from 200 bar to 1 mbar, using the Intermediate General Circulation Model from the University of Reading. Our horizontal spectral resolution

SPATIALLY RESOLVED EASTWARD WINDS AND ROTATION OF HD 189733b

We measure wind velocities on opposite sides of the hot Jupiter HD 189733b by modeling sodium absorption in high-resolution transmission spectra from the High Accuracy Radial Velocity Planet

MAGNETOHYDRODYNAMIC SIMULATIONS OF THE ATMOSPHERE OF HD 209458b

We present the first three-dimensional magnetohydrodynamic (MHD) simulations of the atmosphere of HD 209458b which self-consistently include reduction of winds due to the Lorentz force and Ohmic

Estimating the Magnetic Field Strength in Hot Jupiters

A large fraction of known Jupiter-like exoplanets are inflated as compared to Jupiter. These “hot” Jupiters orbit close to their parent star and are bombarded with intense starlight. Many theories

The Hottest Hot Jupiters May Host Atmospheric Dynamos

Hot Jupiters have proven themselves to be a rich class of exoplanets that test our theories of planetary evolution and atmospheric dynamics under extreme conditions. Here, we present

EQUATORIAL SUPERROTATION ON TIDALLY LOCKED EXOPLANETS

The increasing richness of exoplanet observations has motivated a variety of three-dimensional (3D) atmospheric circulation models of these planets. Under strongly irradiated conditions, models of

CIRCULATION AND DISSIPATION ON HOT JUPITERS

Many global circulation models predict supersonic zonal winds and large vertical shears in the atmospheres of short-period Jovian exoplanets. Using linear analysis and nonlinear local simulations, we