In recent years, planetary scientists have begun to suggest that Pluto & its moons might have something in usual with the fictional planet Tatooine â€” the home of Luke Skywalker in the "Star Wars" movies.Â
Pluto & its largest moon, Charon, orbit each other in a way that is similar to binary star systems, or two stars that orbit close together. OnÂ Tatooine, this arrangement led to gorgeous dual sunsets. But how would rocky, habitable planets form in such a strange environment? Pluto & Charon might provide scientists with an answer.Â
"In terms of the dynamics of how planets form around binary star systems, Pluto is the closest example we have," Scott Kenyon, a theoretical astrophysicist at the Harvard-Smithsonian Center for Astrophysics (CfA), told Space.com. [The Pluto Flyby: Our Complete Coverage]
Plenty of Tatooines
In 1977, the movie "Star Wars" was released in theatres & featured what would eventually become one of the most iconic sunsets in movie history: a desert landscape topped by a purple & red sky featuring two glowing suns (the illusion was created by overlaying two different shots of the sun).Â
When young Luke Skywalker looked longingly at that nicely skyscape, he seemed to be wondering whether he would ever leave his desert home & find adventure. It's likely that many planetary scientists had the same longing in their eyes when staring at that sunscape, wondering if they wouldÂ find evidence of such planets existingÂ in the real world.Â
Fifteen years later, scientists caught sight of the first evidence of planets around other stars. Today, a handful of gas giants have beenÂ spotted orbiting two suns, yet no rocky, terrestrial planets that might host life as we know it.
Could rocky planets exist around binary stars, & could they support life? For that to happen, the planets would need to be able to establish stable orbits for long periods of time (a few billion years at least), giving life a chance to develop under consistent, favorable conditions. [10 Exoplanets That Could Host Alien Life]
"There's a long-standing argument approximately how difficult it is to make planets around binary star systems," Kenyon said. "There has been a myth that binary stars exert a torque on material [around the stars] that would prevent planets from forming." Â
This image show s the arrangement of Pluto & its five moons.
ButÂ a recent paperÂ authored by Kenyon & his frequent collaborator, Ben Bromley, shows that this isn't the case. Their computer simulations indicate that rocky planets can form just as easily around binary stars as around single stars.Â
Real-world examples of planets orbiting binary stars are too far away for scientists to study in detail. That's why a binary system in our own solar system would be a helpful learning tool.Â
Pluto & its moon family
"It's relatively recent, connecting Pluto to binary star systems," Kenyon said "Sort of a new realization among a few of us."Â
Pluto may have been stripped of its "planet" title in 2006, yet it is still referred to as a "binary planet" because of itsÂ unusual orbit with Charon, which is half as wide as Pluto itself: The two bodies orbit around a point that lies between them. (Most planets are much larger than their moons, so this point lies inside the planet, often very close to its center.)Â
In this way, Pluto & Charon are more like a binary star system than most moon-planet systems.Â
"We are trying to make the connection between how planetary systems formed & how the pieces of the Pluto system formed," Kenyon said.Â
The "pieces" areÂ Pluto's four smaller moons: the most distant moon, Hydra, was discovered in 2005 along with Nix. Kerberos, which lies between Nix & Hydra, was discovered in 2011. Styx, the inner-most moon, which is thought to be less than 15 miles (24 kilometers) across, was discovered in 2012. Â
Recent studies of the motion of Pluto & its moons have given support to the theory that the four smaller moons formed from the debris of a massive collision between a proto-Pluto & a proto-Charon. But what exactly happened after that collision remains mysterious. In particular, Kenyon says, no one has come up with a numerical model to figure out how the four moon siblings settled into stable orbits around their parents.Â
If early Charon & early Pluto collided, some debris would remain in orbit, yet some would be ejected. Pluto's four moon siblings live in an extremely tight orbit around their parent bodies, & Kenyon noted in a recent article in the journal Nature that how such tightly packed systems form is "an open question."Â Â
Insight into the formation of the Pluto family might come fromÂ science data taken by the New Horizons probe, which is only a few days away from its close encounter with Pluto. A close view of the shape of the moons could assist scientists determine exactly how they formed.Â
"The question is, did the satellites form in a disk of material, or are they just fragments?" Kenyon said. "It could be a little bit of both. All four of them could be fragments, & then you would expect them to have jagged edges. Or they could have formed by aggregating fragments of a collision â€” like dust bunnies under your bed." (The latter case would make the satellites more round, Kenyon added). Â
When New Horizons flies by Pluto next week, it should donate scientists a better look at the shape of the four satellites.Â
"The Pluto system doesn't tell us much approximately how Earth & Venus formed," Kenyon said. "But if we do discover Tatooines â€” Earth-like terrestrial planets around binary stars â€” then Pluto will assist us understand those."
Follow Calla Cofield @callacofield. Follow us @Spacedotcom, Facebook & Google+. Original article on Space.com.
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