New SuperEarth Discovery Shows Signs of Water in Atmosphere

 

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The atmosphere of a newly discovered SuperEarth –an exoplanet whose mass is between about two and ten Earth-masses–shows signs of harboring water vapor. Four Havard Smithsonisn Center for Astrophysics astronomers used the Hubble Space Telescope to probe the atmosphere around the transiting super-Earth known as GJ1214b. This exoplanet has a mass of 6.5 Earth-masses and a radius of 2.7 Earth-radii, and it orbits a small M-dwarf star (its diameter is only 21% of the Sun's). 


They used the Hubble infrared spectrometer to observe the planet as it transited across the face of the star; as it did so, the planet's atmosphere absorbed light from the star, thus subtly altering the star's intrinsic spectrum as we observe it. The intrinsic spectrum itself was carefully measured and subtracted after the transit.

The category of "super-Earth" currently refers only to the mass of the object, and not to its radius, its orbital distance from the star, its surface temperature, or its atmospheric properties, although naturally astronomers are working hard to identify super-Earths that might offer clues about the Earth in these features. Of the 576 exoplanets whose basic parameters are currently approximately known, there are 36 in the super-Earth category.

Earlier models tried to predict what the atmosphere of this super-Earth might contain, based on ground-based transit spectra of it and on our current knowledge of the atmospheres of the planets in the solar system. For example, an atmosphere dominated by molecular hydrogen is one possibility; this is the situation in Jupiter. 

Circles in the infrared spectrum of GJ1214b below show the measured intensity at each wavelength; the bars show the uncertainties. Also plotted are some proposed model atmospheres – the best fitting ones contain water vapor. 

 

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But measurements made in three separate transits found no evidence for this scenario – nor were they consistent with an equilibrium atmosphere composed of elements whose relative abundances are those of the average solar system. Instead, the astronomers concluded that, unless the atmosphere has a thick top layer of clouds obscuring our view, its probable composition includes abundant water vapor. Probing the atmosphere around a planet orbiting a star 42 light-years away is a remarkable achievement and an early step.

Future observations of this and other transiting exoplanets will tell us more about the atmospheres of exoplanets, and lead to a better understanding of how atmospheres form, evolve, and behave under a wide range of physical conditions.

The Daily Galaxy via Harvard-Smithsonian Center for Astrophysics  

Graph Image credit: Zachory Berta, 2012

Top of Page image: ESO

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