Frankenstein’s moon Mark Garlick/Science Photo Library
It came in like a wrecking ball. Neptune has one of the weirdest collections of moons in our solar system, and it鈥檚 Triton鈥檚 fault. The planet鈥檚 largest moon probably smashed into the calm moon system that was there before it arrived, knocking everything out of sync.
Planetary scientists have long suspected that the huge moon Triton is an interloper from outside the Neptune system. Now they have calculated what the other moons may have looked like before the intrusion.
All of the other gas giants in our solar system – Jupiter, Saturn and Uranus – have fairly similar systems of moons. In each of these systems, the mass of the planet is about 10,000 times bigger than the total mass of all the moons together. For the most part, these planets have several small moons, all orbiting in the same direction as the planet spins.
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But Neptune is different. It has several tiny moons either very close in or far away from the planet 鈥 most of which orbit in the direction of the planet鈥檚 spin – and one huge one, Triton, orbiting in the opposite direction.
Bull in a china shop
at the Southwest Research Institute in Colorado and Raluca Rufu at the Weizmann Institute of Science in Israel used a series of computer simulations to figure out what the Neptune system was like before Triton barrelled in.
They found that it probably had a moon system similar in total mass to Uranus鈥檚. But that didn鈥檛 last long.
鈥淭riton crashed the party, literally and figuratively,鈥 says Canup. 鈥淚t destroyed the well-behaved satellite system that was there before it.鈥
To get from a serene Uranus-like system to what we see at Neptune today, three things have to be true: the early moons had to be small enough that they wouldn鈥檛 destroy Triton as it crashed into them; they had to somehow slow Triton down so that it would be captured in the relatively close and circular orbit that it has now; and Neptune鈥檚 outer moons had to remain intact.
鈥淭he question is, how do you capture Triton in an elongated orbit and then get it into this circular orbit? You have to dissipate some energy from it to slow it down,鈥 says at the Carnegie Institution for Science in Washington DC.
Canup and Rufu found that Triton鈥檚 gravity flung the smaller moons around. It also collided with some of them, slowing down and settling into its circular orbit. This process happened fast enough to stop Triton from hurtling through the outer areas of Neptune鈥檚 system too much, leaving the moons out there relatively unscathed.
Frankenstein鈥檚 monster
鈥淣ow that we have some hold on what the original moons of Neptune were like, that can give us some clue as to what we should expect for extrasolar planets of that type,鈥 says at the SETI Institute.
Unfortunately, it will be difficult to confirm the scenario that Canup and Rufu propose, even if we send a spacecraft to Triton to look. Triton is icy and seems to be geologically active, so ice is likely to have filled in any craters or scars from the moon鈥檚 past misadventures, says Sheppard.
We have a better chance if we study what Triton is made from. 鈥淭riton is kind of a Frankenstein鈥檚 monster moon,鈥 says Cuk. 鈥淢ost of it is this original captured object, but if this research is correct then about 10 per cent of Triton comes from crashing into and absorbing these original moons.鈥
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Read more: Weird worlds: The solar system鈥檚 10 strangest moons
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