Alien megastructure confirmed as unlikely cause of star’s weird behaviour
A team of more than 200 researchers is one step closer to solving the mystery behind Tabby’s Star
A team of more than 200 researchers, including Penn State Department of Astronomy and Astrophysics assistant professor Jason Wright and led by Louisiana State University’s Tabetha Boyajian, is one step closer to solving the mystery behind the most mysterious star in the universe. KIC 8462852, or Tabby’s Star, nicknamed after Boyajian, is otherwise an ordinary star, about 50 per cent bigger and 1,000 degrees hotter than the Sun, and about than 1,000 light years away. However, it has been inexplicably dimming and brightening sporadically like no other. Several theories abound to explain the star’s unusual light patterns, including that an alien megastructure is orbiting the star.
The mystery of Tabby’s Star is so compelling that more than 1,700 people donated over $100,000 through a Kickstarter campaign in support of dedicated ground-based telescope time to observe and gather more data on the star through a network of telescopes around the world. As a result, a body of data collected by Boyajian and colleagues in partnership with the Las Cumbres Observatory is now available in a new paper in The Astrophysical Journal Letters.
“We were hoping that once we finally caught a dip happening in real time we could see if the dips were the same depth at all wavelengths. If they were nearly the same, this would suggest that the cause was something opaque, like an orbiting disc, planet, or star, or even large structures in space,” says Wright, who is a co-author of the paper, titled The First Post-Kepler Brightness Dips of KIC 8462852. Instead, the team found that the star got much dimmer at some wavelengths than at others.
“Dust is most likely the reason why the star’s light appears to dim and brighten. The new data shows that different colours of light are being blocked at different intensities. Therefore, whatever is passing between us and the star is not opaque, as would be expected from a planet or alien megastructure,” Boyajian says.
The scientists closely observed the star through the Las Cumbres Observatory from March 2016 to December 2017. Beginning in May 2017 there were four distinct episodes when the star’s light dipped. Supporters from the crowdfunding campaign nominated and voted to name these episodes. The first two dips were named Elsie and Celeste. The last two were named after ancient lost cities – Scotland’s Scara Brae and Cambodia’s Angkor. The authors write that in many ways what is happening with the star is like these lost cities.
“They’re ancient; we are watching things that happened more than 1,000 years ago,” the authors wrote. “They’re almost certainly caused by something ordinary, at least on a cosmic scale. And yet that makes them more interesting, not less. But most of all, they’re mysterious.”
The method in which this star is being studied — by gathering and analysing a flood of data from a single target – signals a new era of astronomy. Citizen scientists sifting through massive amounts of data from the NASA Kepler mission were the ones to detect the star’s unusual behaviour in the first place. The main objective of the Kepler mission was to find planets, which it does by detecting the periodic dimming made from a planet moving in front of a star, and hence blocking out a tiny bit of starlight. The online citizen science group Planet Hunters was established so that volunteers could help to classify light curves from the Kepler mission and to search for such planets.
“If it wasn’t for people with an unbiased look on our universe, this unusual star would have been overlooked,” Boyajian says. “Again, without the public support for this dedicated observing run, we would not have this large amount of data.”
Now there are more answers to be found. “This latest research rules out alien megastructures, but it raises the probability of other phenomena being behind the dimming,” Wright says. “There are models involving circumstellar material – like exocomets, which were Boyajian’s team’s original hypothesis – which seem to be consistent with the data we have.” Wright also points out that “some astronomers favour the idea that nothing is blocking the star – that it just gets dimmer on its own – and this also is consistent with this summer’s data.”
Boyajian says, “It’s exciting. I am so appreciative of all of the people who have contributed to this in the past year – the citizen scientists and professional astronomers. It’s quite humbling to have all of these people contributing in various ways to help figure it out.”
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