MIAMI? The ability of life to thrive on alien worlds may be impacted by the wild andweird orbits of giant neighboring planets, new studies suggest.
Theheftier worlds in other planetary systems could exert large forces on smallerworlds, pushing and pulling them into changing orbits. In some cases, theseweird orbits could cause some extrasolarplanets to fluctuate between being habitable and being inhospitable to life.
Thesechanging conditions of habitability could impact the search for life on otherworlds and astronomers' theories on the formation of planetary systems like ourown.
"Thereis this crazy zooof planets out there that probably are habitable," research teammember Rory Barnes of the University of Washington said, "but theirproperties are very different from Earth and they're different from Earthbecause of their eccentric neighbors."
Thediscovery of these so-called weird orbits will have important implications forexisting theories of how multi-planet systems evolve. The findings also show thatsome violent events can happen to disrupt planets' orbits after a planetarysystem forms.
"Thefindings mean that future studies of exoplanetary systems will be morecomplicated," said Barbara McArthur of The University of Texas at Austin, who was the lead researcher for one of the studies. "Astronomers can nolonger assume all planets orbit their parent star in a single plane."
Forover a decade, astronomers have known that three Jupiter-type planets orbitUpsilon Andromedae. McArthur's team was able to measure the exact mass of twoof the three known planets. But, the surprising result came when theresearchers observed that the two planets are inclined and orbit at a steepangle to one another. The team's results will also be detailed in the June 1edition of the Astrophysical Journal.
"Mostprobably Upsilon Andromedae had the same formation process as our own solarsystem, although there could have been differences in the late formation thatseeded this divergent evolution," McArthur said. "The premise ofplanetary evolution so far has been that planetary systems form in the disk andremain relatively co-planar, like our own system, but now we have measured asignificant angle between these planets that indicates this isn't always thecase."
"Possibilitiesinclude interactions occurring from the inward migration of planets, theejection of other planets from the system through planet-planet scattering, ordisruption from the parent star's binary companion star, UpsilonAndromedae," McArthur said.
"Ourdynamical analysis shows that the inclined orbits probably resulted from theejection of an original member of the planetary system," Barnes said."However, we don't know if the distant stellar companion forced thatejection, or if the planetary system itself formed such that some originalplanets were ejected."
Headded that the revised configuration still lies on the precipice of stability,because "the planets pull on each other so strongly that they are almostable to throw each other out of the system."
Barnes'own research emphasizes the important role that planetary systems architecturehas on the potential habitability of exoplanets.
Alone terrestrial, or Earth-like, planet with a mostly circular orbit toward theinner edge of its sun's habitable zone would be expected to maintain that orbitand remain within that zone, said Barnes.
Insuch cases, the smaller planet's orbit will elongate, taking it further beyondthe sun's habitable zone, before then trying to readjust to become morecircular again. These events occur all within a time period of only 1,000years, and could even happen repeatedly.
Thiscould mean that an exoplanet's average yearly temperature could changesignificantly during each millennium, altering conditions on the alien planet'ssurface in the process.
"Forpart of the time liquid water could exist on the surface, but at others itwould boil off," said Barnes, who also presented his findings at today'smeeting.
"Thebigger issue here is that the habitable zone is very complicated," Barnessaid. "Earth's climate is affected slightly over tens of thousands ofyears by the orbits of other planets in the solar system, but it is possiblethat in many exoplanetary systems the layout of the planets is very importantto habitability."
Aplanet's habitable zone becomes even more complex for exoplanets that orbitlow-mass stars, such as stars that are one-third the mass of the sun. In suchsystems, the habitable zone is much closer to the smaller star, and any forcesfrom the star's gravity have critical effects in determining whether the planetis habitable.
"Therecould be planets out there that have their geological properties change oververy long timescales," Barnes said. "You can imagine planets thatcycle in and out of intense volcanism and earthquake stages."
Forceswithin a planetary system also fix the planet's rotation period. If a planet'sorbit becomes more elongated, the length of that planet's day could change alsochange significantly.
"Thelength of the day changes almost day to day," Barnes said. "It'sfascinating to think about how evolution occurs on such a world."
- Images: The Strangest Alien Planets
- Newfound Alien World Resembles Those in Our Solar System
- Top 10 Extreme Planet Facts
