UW News

July 23, 2015

UW astronomer, students report irregularities in ‘rare, exotic’ binary system

UW News

UW astronomers were recently reminded that the diplomatic axiom to “trust, but verify” also applies to scientific inquiry when they analyzed fresh data from a distant galaxy. As they reported in July in the Monthly Notices of the Royal Astronomical Society, a puzzling stellar phenomenon may not be what other astronomers had reported.

They studied a binary star system called NGC 300 X-1, nestled within a far-flung galaxy in the constellation Sculptor. Starting in 2007, scientists reported that this system of two stars appeared to be a rare pairing of a massive black hole and a large, unstable star. Astronomers struggled to explain how these two mighty bodies with violent histories could remain so intimately joined. But as the UW researchers showed, they may not be paired at all.

The galaxy NGC 300.

The galaxy NGC 300, home to the unusual binary system Binder and her colleagues studied. The spiral galaxy is over 6 million light years away.NASA/JPL-Caltech/OCIW

“I thought this would be a quick follow-up project on this binary system with new observations,” said UW astronomer and lead author Breanna Binder. “But what we found was a lot more interesting than I thought.”

Since its discovery, this system had puzzled astronomers. The black hole was unusually large. Most black holes — created after massive stars explode as a supernova — are about five to 10 times more massive than the sun, said Binder. Astronomers had reported that the black hole in NGC 300 X-1 was 20 to 30 times more massive than the sun. In addition, other groups reported that the black hole’s orbiting companion was an enormous, unstable star in the Wolf-Rayet phase of its life. Only the largest stars go through this brief phase before they explode as supernovae. The pairing of two rare and violent stellar phenomena defied explanation, said Binder.

“These really massive stars that form black holes and Wolf-Rayet stars are only one out of every 3 million stars,” said Binder. “So they’re incredibly rare to begin with, and then to see two of them together as a binary is even more rare.”

All previous observations of this “rare and exotic” system came from ground-based telescopes. But last year Binder obtained the first space-based views of NGC 300 X-1 from the Hubble Space Telescope and the Chandra X-ray Observatory. Binder, who divides her time between research and lecturing at UW Bothell, enlisted two astronomy undergraduates, Jacob Gross and Daniel Simons, to help her analyze these more detailed datasets. She expected them to confirm ground-based observations. Instead, they found multiple inconsistencies.

An artist's rendition of NGC 300 X-1.

An artist’s rendering of NGC 300 X-1 as it was envisioned shortly after its discovery – an unusually massive black hole (left) with a Wolf-Rayet star (right). Binder and her colleagues recently showed that the Wolf-Rayet star may not be the black hole’s true companion.ESO/L. Calçada/M. Kornmesser

“We basically showed that past groups could’ve gotten entirely wrong what this system is,” said Binder.

Gross and Simons first discovered a problem with the black hole: previous researchers may have inadvertently overestimated its mass.

“It might be one of these smaller and more normal black holes,” explained Binder.

In addition, Binder and her team realized that the Wolf-Rayet star may not be the black hole’s true companion. Using clearer, space-based observations of NGC 300 X-1, they discovered another star that may instead be orbiting the black hole. This alternative star is less massive and resembles what the sun will look like in its later life.

Binder and her team did not have enough observations from Chandra and Hubble to determine the black hole’s true mass, or identify which star is its companion. But if the black hole is smaller and paired with the alternative star, that would make this binary system much more ordinary. That may come as a relief to astronomers who could not explain why this system existed. The massive black hole was once a star that swelled and exploded as a supernova, and astronomers could not understand why this supernova hadn’t expelled the immense and unstable Wolf-Rayet star. If the Wolf-Rayet star is not the black hole’s true companion, then there is no need for head-scratching.

“People had to come up with a lot of new ideas about stellar evolution — especially for massive stars — in order to explain why this massive binary existed,” said Binder. “But if this actually turns out to be a more run of the mill, commonplace system, we may have had a better idea of stellar evolution and binary stars than we thought.”

Her team’s findings come on the heels of a new study that casts doubt on the composition of IC 10 X-1, the only other reported binary system containing a massive black hole and a Wolf-Rayet star. But, Binder stressed, astronomers must verify all of these findings — including her team’s — before writing the eulogy for this rare and perplexing type of binary system.

“We need to follow up on this system, get more X-ray coverage and measure the velocity of these stars,” said Binder.

She is requesting time on another NASA observatory to do just that.

UW astronomy professor Benjamin Williams was also an author on the paper.

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For more information, contact Binder at 206-543-9590 or bbinder@uw.edu.

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