Scientists say they've found an alien asteroid near Jupiter
When an asteroid from outside our solar system was observed last year, it caused a lot of excitement. Now, a new study suggests another interstellar asteroid has actually been hiding here all this time.
This alien asteroid — named 2015 BZ509 — formed in another star system, but is now a permanent resident of our solar system, and it has been since our solar system's formation 4.5 billion years ago, says in the Monthly Notices of the Royal Astronomical Society: Letters.
The unusual asteroid — estimated to be about three kilometres in diameter — was actually discovered three years ago with the Panoramic Survey Telescope And Rapid Response System (Pan-STARRS) at the University of Hawaii. The telescope is specifically designed to hunt for asteroids, especially those that could pose a threat to Earth.
At the time, Canadian astronomer Paul Wiegert and his team observed about the asteroid's behaviour:
Wiegert, an astronomer at Western University in London, Ont., and his team calculated that the asteroid will continue to safely meet and miss Jupiter repeatedly for at least the next one million years.
But they didn't then know how the asteroid ended up in that weird orbit.
In this new study, Fathi Namouni, of l'Observatoire de la Côte d'Azur in France, and Helena Morais, at the Universidade Estadual Paulista in Brazil, offer an explanation for the asteroid's odd behaviour: It's not from around here.
In order determine what might have put the asteroid into its current orbit, Namouni and Morais simulated and extrapolated the asteroid's path back to the beginning of the solar system.
They looked at a million possibilities to account for the fact the asteroid's current orbit isn't known with exact precision, knowing only some of those possibilities would reflect the object's true orbit and therefore provide a real, observable path.
The results that could be traced the furthest back showed the asteroid's orbit hasn't changed in all those 4.5 billion years.
"This was actually a big surprise," Morais told CBC News.
That's because it's thought everything was moving in the same direction — or opposite to the direction the asteroid is travelling — when our solar system formed.
At that time, planets and asteroids were coalescing from a rotating disk of gas and dust left over from the formation of the sun; they ended up orbiting in the same direction the disk was rotating.
In other words, objects with wrong-way or "retrograde" orbits didn't exist in our solar system at that time, said Morais.
"So they have to come from the outside."
'Oumuamua, the interstellar asteroid spotted passing through our solar system last year, was going too fast to be captured by the gravity of the planets. But an object with a slower velocity could still conceivably be pulled into the orbit of a giant planet like Jupiter when passing by.
And billions of years ago, the sun was part of a cluster of stars, Morais said.
"There were close-by stars — closer than they are today," she said, making it easier for these stars to exchange objects.
Morais thinks looking out for strange orbits may help scientists identify other alien asteroids hiding in our solar system. "We believe others are there at the moment," she said. "The question is to figure out which ones."
At the moment, scientists don't know what 2015 BZ509 is made of, Morais said. But if scientists are able to study the composition of other objects like it, they may be able to learn more about where those objects came from.
Martin Connors, a physicist at Athabasca University who originally worked with Wiegert to describe the asteroid's orbit, said their team hadn't considered at the time the possibility it may be from another stellar system. Nor did they have the computing power to extrapolate so many possibilities for the object's path, going back 4.5 billion years.
"They did a massive study, that's for sure," he said.
But while Connors said he thinks the methodology was "great," he doesn't totally agree with the conclusion that the asteroid came from another stellar system, as only a few possible paths show the orbit being stable from the beginning of the solar system.
Still, the possibility of the asteroid coming from another star is interesting, he said.
"I think the most important implication is this opens our eyes to a new thing to look at."