
NEPTUNE may have polished off a super-Earth that once roamed the outer solar system and stolen its moon to boot. The brutal deed could explain mysterious heat radiating from the icy planet and the odd orbit of its moon Triton.
Neptune鈥檚 own existence was a puzzle until recently. The dusty cloud that gave birth to the planets probably thinned out further from the sun. With building material so scarce, it is hard to understand how Uranus and Neptune, the two outermost planets, managed to get so big.
But what if they formed closer in? In 2005, a team of scientists proposed that the giant planets shifted positions in an early upheaval (New Scientist, 25 November 2006, p 40). In this scenario, Uranus and Neptune formed much closer to the sun and migrated outwards, possibly swapping places in the process.
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That would have left behind enough material just beyond their birthplace to form a planet with twice the Earth鈥檚 mass, according to calculations published in 2008 by of Arizona State University in Tempe.
Neptune鈥檚 peculiar moon Triton may once have been paired with this hypothetical super-Earth, Desch and colleague Simon Porter now say. Triton is larger than Pluto, and it moves through its orbit in the opposite direction to Neptune鈥檚 rotation, suggesting that it did not form there but was captured instead.
For Neptune to capture Triton, the moon would have had to slow down drastically. One way to do this is for Triton to have had a partner that carried away most of the pair鈥檚 kinetic energy after an encounter with Neptune. In 2006 researchers argued that Triton was initially paired with another object of similar size that wound up being gravitationally slung into space after the pair ventured near Neptune (New Scientist, 13 May 2006, p 8).
But Triton could have slowed even more if its former partner were a heavy super-Earth. That鈥檚 because a more massive body could carry away more of the pair鈥檚 kinetic energy, Desch calculated in a presented earlier this month at the Lunar and Planetary Science Conference in Houston, Texas. 鈥淚t would be a lot easier to capture Triton if it were orbiting something bigger,鈥 he says.
Neptune may have engulfed the super-Earth. Heat left over from the impact could explain why the planet radiates much more heat than its cousin Uranus, which is similar in mass and composition, Desch says.
But of the University of Maryland, College Park, one of the authors of the 2006 study proposing that Triton had a long-lost twin, points out that smaller bodies would have been common in the early solar system, before planet migration cleared many of them away. Neptune would therefore have had many opportunities to snag Triton from one of these punier objects, rather than from a much rarer super-Earth, so that explanation may still be more likely, he says. Even so, he is not ready to rule out Desch鈥檚 idea: 鈥淚t鈥檚 worth pursuing to see where it will lead.鈥