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Life On Alien Moons Possible Say German Astronomers
Credits: R. Heller, AIP
The research, conducted by René Heller of Germany’s Leibniz Institute for Astrophysics Potsdam and Rory Barnes of the University of Washington and the NASA Astrobiology Institute, will appear in the January issue of Astrobiology.
About 850 extrasolar planets — planets outside the solar system — are known, and most of them are sterile gas giants, similar to Jupiter. Only a few have a solid surface and orbit their host stars in the habitable zone, the circumstellar belt at the right distance to potentially allow liquid surface water and a benign environment.
In addition to the host of new planets discovered by the Kepler mission, we are now capable of detecting large moons circling planets around other stars. These exomoons modify the shape, timing, and duration of the transit lightcurve of their host planet, and this illustration demonstrates all of these effects.
New algorithms are being developed to detect these signatures in Kepler data, and if large moons are common in the universe, the first exomoon discovery could happen at any time. Visualization of the detection method used to find extrasolar moons as it is used by the HEK team at the Centre for Astrophysics at Harvard University.
Heller and Barnes tackled the theoretical question whether such planets could host habitable moons. No such exomoons have yet been discovered but there’s no reason to assume they don’t exist.
The climatic conditions expected on extrasolar moons will likely differ from those on extrasolar planets because moons are typically tidally locked to their planet. Thus, similar to the Earth’s moon, one hemisphere permanently faces the planet. Beyond that moons have two sources of light — that from the star and the planet they orbit — and are subject to eclipses that could significantly alter their climates, reducing stellar illumination. „An observer standing on the surface of such an exomoon would experience day and night in a totally different way than we do on Earth.” explained Heller. “For instance stellar eclipses could lead to sudden total darkness at noon.”
Heller and Barnes also identified tidal heating as a criterion for exomoon habitability. This additional energy source is triggered by a moon’s distance to its host planet; the closer the moon, the stronger tidal heating. Moons that orbit their planet too closely will undergo strong tidal heating and thus a catastrophic runaway greenhouse effect that would boil away surface water and leave them forever uninhabitable.
They also devised a theoretical model to estimate the minimum distance a moon could be from its host planet and still allow habitability, which they call the “habitable edge.”This concept will allow future astronomers to evaluate the habitability of extrasolar moons. “There is a habitable zone for exomoons, it’s just a little different than the habitable zone for exoplanets,” Barnes said.
The exquisite photometric precision of NASA’s Kepler space telescope now makes the detection of a Mars- to Earth-sized extrasolar moon possible, indeed imminent. Launched in 2009, the telescope enabled scientists to reveal thousands of new extrasolar planet candidates. Since 2012 the first dedicated “Hunt for Exomoons with Kepler” is under way.
Heller and Barnes’ paper, “Exomoon Habitability Constrained by Illumination and Tidal Heating,” will be published in the January issue of the journal Astrobiology.
Contacts and sources:
Publication:
R. Heller, R. Barnes: Exomoon habitability constrained by illumination and tidal heating. (Preprint) In: Astrobiology, issue 01/2013.
Further Information:
The Hunt for Exomoons with Kepler (HEK) am Centre for Astrophysics der Harvard University.
Table of Exoplanets (Credits: PHL@UPR Arecibo)
